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0e2a5e448f426219a6464b9aaadcc715534114e6 tests: dumping and minimizing of script assets data (Pieter Wuille)
4567ba034c5ae6e6cc161360f7425c9e844738f0 tests: add generic qa-asset-based script verification unit test (Pieter Wuille)
f06e6d03452cf5e0b1a0863afb08c9e6d3ef452e tests: functional tests for Schnorr/Taproot/Tapscript (Pieter Wuille)
3c226639eb134314a0640d34e4ccb6148dbde22f tests: add BIP340 Schnorr signature support to test framework (Pieter Wuille)
206fb180ec6ee5f916afc6f574000d716daf79b7 --- [TAPROOT] Tests --- (Pieter Wuille)
d7ff237f2996a4c11fdf9399187c2d2b26bf9809 Activate Taproot/Tapscript on regtest (BIP 341, BIP 342) (Pieter Wuille)
e9a021d7e6a454d610a45cb9b3995f0d96a5fbb6 Make Taproot spends standard + policy limits (Pieter Wuille)
865d2c37e2e44678498b7f425b65e01b1e231cde --- [TAPROOT] Regtest activation and policy --- (Pieter Wuille)
72422ce396b8eba7b1a72c171c2f07dae691d1b5 Implement Tapscript script validation rules (BIP 342) (Johnson Lau)
330de894a9a48515d9a473448b6c67adc3d188be Use ScriptExecutionData to pass through annex hash (Pieter Wuille)
8bbed4b7acf4c76eaea8c0e10f3cbf6ba4e53809 Implement Taproot validation (BIP 341) (Pieter Wuille)
0664f5fe1f77f08d235aa3750b59428257b0b91d Support for Schnorr signatures and integration in SignatureCheckers (BIP 340) (Pieter Wuille)
5de246ca8159dcffaa4c136a60c8bfed2028e2ee Implement Taproot signature hashing (BIP 341) (Johnson Lau)
9eb590894f15ff40806039bfd32972fbc260e30d Add TaggedHash function (BIP 340) (Pieter Wuille)
450d2b23710ad296eede81339195376021ab5500 --- [TAPROOT] BIP340/341/342 consensus rules --- (Pieter Wuille)
5d62e3a68b6ea9bb03556ee1fbf5678f20be01a2 refactor: keep spent outputs in PrecomputedTransactionData (Pieter Wuille)
8bd2b4e78452ff69c08c37acf164a6b80e503f13 refactor: rename scriptPubKey in VerifyWitnessProgram to exec_script (Pieter Wuille)
107b57df9fa8b2d625d2b342dc77722282a6ae4c scripted-diff: put ECDSA in name of signature functions (Pieter Wuille)
f8c099e2207c90d758e7a659d6a55fa7ccb7ceaa --- [TAPROOT] Refactors --- (Pieter Wuille)
Pull request description:
This is an implementation of the Schnorr/taproot consensus rules proposed by BIPs [340](https://github.com/bitcoin/bips/blob/master/bip-0340.mediawiki), [341](https://github.com/bitcoin/bips/blob/master/bip-0340.mediawiki), and [342](https://github.com/bitcoin/bips/blob/master/bip-0340.mediawiki).
See the list of commits [below](https://github.com/bitcoin/bitcoin/pull/19953#issuecomment-691815830). No signing or wallet support of any kind is included, as testing is done entirely through the Python test framework.
This is a successor to https://github.com/bitcoin/bitcoin/pull/17977 (see discussion following [this comment](https://github.com/bitcoin/bitcoin/pull/17977#issuecomment-682285983)), and will have further changes squashed/rebased. The history of this PR can be found in #19997.
ACKs for top commit:
instagibbs:
reACK https://github.com/bitcoin/bitcoin/pull/19953/commits/0e2a5e448f426219a6464b9aaadcc715534114e6
benthecarman:
reACK 0e2a5e4
kallewoof:
reACK 0e2a5e448f426219a6464b9aaadcc715534114e6
jonasnick:
ACK 0e2a5e448f426219a6464b9aaadcc715534114e6 almost only looked at bip340/libsecp related code
jonatack:
ACK 0e2a5e448f426219a6464b9aaadcc715534114e6 modulo the last four commits (tests) that I plan to finish reviewing tomorrow
fjahr:
reACK 0e2a5e448f426219a6464b9aaadcc715534114e6
achow101:
ACK 0e2a5e448f426219a6464b9aaadcc715534114e6
Tree-SHA512: 1b00314450a2938a22bccbb4e177230cf08bd365d72055f9d526891f334b364c997e260c10bc19ca78440b6767712c9feea7faad9a1045dd51a5b96f7ca8146e
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it for new descriptor wallets
c4a29d0a90b821c443c10891d9326c534d15cf97 Update wallet_multiwallet.py for descriptor and sqlite wallets (Russell Yanofsky)
310b0fde04639b7446efd5c1d2701caa4b991b86 Run dumpwallet for legacy wallets only in wallet_backup.py (Andrew Chow)
6c6639ac9f6e1677da066cf809f9e3fa4d2e7c32 Include sqlite3 in documentation (Andrew Chow)
f023b7cac0eb16d3c1bf40f1f7898b290de4cc73 wallet: Enforce sqlite serialized threading mode (Andrew Chow)
6173269866306058fcb1cc825b9eb681838678ca Set and check the sqlite user version (Andrew Chow)
9d3d2d263c331e3c77b8f0d01ecc9fea0407dd17 Use network magic as sqlite wallet application ID (Andrew Chow)
9af5de3798c49f86f27bb79396e075fb8c1b2381 Use SQLite for descriptor wallets (Andrew Chow)
9b78f3ce8ed1867c37f6b9fff98f74582d44b789 walletutil: Wallets can also be sqlite (Andrew Chow)
ac38a87225be0f1103ff9629d63980550d2f372b Determine wallet file type based on file magic (Andrew Chow)
6045f77003f167bee9a85e2d53f8fc6ff2e297d8 Implement SQLiteDatabase::MakeBatch (Andrew Chow)
727e6b2a4ee5abb7f2dcbc9f7778291908dc28ad Implement SQLiteDatabase::Verify (Andrew Chow)
b4df8fdb19fcded7e6d491ecf0b705cac0ec76a1 Implement SQLiteDatabase::Rewrite (Andrew Chow)
010e3659069e6f97dd7b24483f50ed71042b84b0 Implement SQLiteDatabase::TxnBegin, TxnCommit, and TxnAbort (Andrew Chow)
ac5c1617e7f4273daf24c24da1f6bc5ef5ab2d2b Implement SQLiteDatabase::Backup (Andrew Chow)
f6f9cd6a64842ef23777312f2465e826ca04b886 Implement SQLiteBatch::StartCursor, ReadAtCursor, and CloseCursor (Andrew Chow)
bf90e033f4fe86cfb90492c7e0962278ea3a146d Implement SQLiteBatch::ReadKey, WriteKey, EraseKey, and HasKey (Andrew Chow)
7aa45620e2f2178145a2eca58ccbab3cecff08fb Add SetupSQLStatements (Andrew Chow)
6636a2608a4e5906ee8092d5731595542261e0ad Implement SQLiteBatch::Close (Andrew Chow)
93825352a36456283bf87e39b5888363ee242f21 Implement SQLiteDatabase::Close (Andrew Chow)
a0de83372be83f59015cd3d61af2303b74fb64b5 Implement SQLiteDatabase::Open (Andrew Chow)
3bfa0fe1259280f8c32b41a798c9453b73f89b02 Initialize and Shutdown sqlite3 globals (Andrew Chow)
5a488b3d77326a0d957c1233493061da1b6ec207 Constructors, destructors, and relevant private fields for SQLiteDatabase/Batch (Andrew Chow)
ca8b7e04ab89f99075b093fa248919fd10acbdf7 Implement SQLiteDatabaseVersion (Andrew Chow)
7577b6e1c88a1a7b45ecf5c7f1735bae6f5a82bf Add SQLiteDatabase and SQLiteBatch dummy classes (Andrew Chow)
e87df8258090138d5c22ac46b8602b618620e8a1 Add sqlite to travis and depends (Andrew Chow)
54729f3f4e6765dfded590af5fb28c88331685f8 Add libsqlite3 (Andrew Chow)
Pull request description:
This PR adds a new class `SQLiteDatabase` which is a subclass of `WalletDatabase`. This provides access to a SQLite database that is used to store the wallet records. To keep compatibility with BDB and to complexity of the change down, we don't make use of many SQLite's features. We use it strictly as a key-value store. We create a table `main` which has two columns, `key` and `value` both with the type `blob`.
For new descriptor wallets, we will create a `SQLiteDatabase` instead of a `BerkeleyDatabase`. There is no requirement that all SQLite wallets are descriptor wallets, nor is there a requirement that all descriptor wallets be SQLite wallets. This allows for existing descriptor wallets to work as well as keeping open the option to migrate existing wallets to SQLite.
We keep the name `wallet.dat` for SQLite wallets. We are able to determine which database type to use by searching for specific magic bytes in the `wallet.dat` file. SQLite begins it's files with a null terminated string `SQLite format 3`. BDB has `0x00053162` at byte 12 (note that the byte order of this integer depends on the system endianness). So when we see that there is a `wallet.dat` file that we want to open, we check for the magic bytes to determine which database system to use.
I decided to keep the `wallet.dat` naming to keep things like backup script to continue to function as they won't need to be modified to look for a different file name. It also simplifies a couple of things in the implementation and the tests as `wallet.dat` is something that is specifically being looked for. If we don't want this behavior, then I do have another branch which creates `wallet.sqlite` files instead, but I find that this direction is easier.
ACKs for top commit:
Sjors:
re-utACK c4a29d0a90b821c443c10891d9326c534d15cf97
promag:
Tested ACK c4a29d0a90b821c443c10891d9326c534d15cf97.
fjahr:
reACK c4a29d0a90b821c443c10891d9326c534d15cf97
S3RK:
Re-review ACK c4a29d0a90b821c443c10891d9326c534d15cf97
meshcollider:
re-utACK c4a29d0a90b821c443c10891d9326c534d15cf97
hebasto:
re-ACK c4a29d0a90b821c443c10891d9326c534d15cf97, only rebased since my [previous](https://github.com/bitcoin/bitcoin/pull/19077#pullrequestreview-507743699) review, verified with `git range-diff master d18892dcc c4a29d0a9`.
ryanofsky:
Code review ACK c4a29d0a90b821c443c10891d9326c534d15cf97. I am honestly confused about reasons for locking into `wallet.dat` again when it's so easy now to use a clean format. I assume I'm just very dense, or there's some unstated reason, because the only thing that's been brought up are unrealistic compatibility scenarios (all require actively creating a wallet with non-default descriptor+sqlite option, then trying to using the descriptor+sqlite wallets with old software or scripts and ignoring the results) that we didn't pay attention to with previous PRs like #11687, which did not require any active interfaction.
jonatack:
ACK c4a29d0a90b821c443c10891d9326c534d15cf97, debug builds and test runs after rebase to latest master @ c2c4dbaebd9, some manual testing creating, using, unloading and reloading a few different new sqlite descriptor wallets over several node restarts/shutdowns.
Tree-SHA512: 19145732e5001484947352d3175a660b5102bc6e833f227a55bd41b9b2f4d92737bbed7cead64b75b509decf9e1408cd81c185ab1fb4b90561aee427c4f9751c
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This adds a --dumptests flag to the feature_taproot.py test, to dump all its
generated test cases to files, in a format compatible with the
script_assets_test unit test. A fuzzer for said format is added as well, whose
primary purpose is coverage-based minimization of those dumps.
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This adds a fuzz test that reimplements a naive reimplementation of
TxRequestTracker (with up to 16 fixed peers and 16 fixed txhashes),
and compares the real implementation against it.
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Add unit tests for TxRequestTracker. Several scenarios are tested,
randomly interleaved with eachother.
Includes a test by Antoine Riard (ariard).
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8258c4c0076bb5f27efdc117a04b27fcd6dd00b2 test: some sanity checks for consensus logic (Anthony Towns)
e47ad375bf17557f805bd206e789b8db78c6338a test: basic signet tests (Karl-Johan Alm)
4c189abdc452f08dfa758564b5381bc78c42d481 test: add small signet fuzzer (practicalswift)
ec9b25d046793be50da1c11ba61d1b4b13b295b0 test: signet network selection tests (Karl-Johan Alm)
3efe298dccb248f25d6b01ab6a80b1cd6c9e1a1e signet: hard-coded parameters for Signet Global Network VI (2020-09-07) (Karl-Johan Alm)
c7898bca4e1ccbc6edafd3b72eaf80df38e3af32 qt: update QT to support signet network (Karl-Johan Alm)
a8de47a1c9033fac3355590f1fe2158a95011bb3 consensus: add signet validation (Karl-Johan Alm)
e8990f121405af8cd539b904ef082439261e6c93 add signet chain and accompanying parameters (Karl-Johan Alm)
404682b7cdb54494e7c98f0ba0cac8b51f379750 add signet basic support (signet.cpp) (Karl-Johan Alm)
a2147d7dadec1febcd9c2b8ebbbf78dce6d0556b validation: move GetWitnessCommitmentIndex to consensus/validation (Karl-Johan Alm)
Pull request description:
This PR is a part of BIP-325 (https://github.com/bitcoin/bips/blob/master/bip-0325.mediawiki), and is a sub-PR of #16411.
* Signet consensus (this)
* Signet RPC tools (pending)
* Signet utility scripts (contrib/signet) (pending)
ACKs for top commit:
jonatack:
re-ACK 8258c4c0076bb5f27efdc117a04b27fcd6dd00b per `git diff dbeea65 8258c4c`, only change since last review is updated `-signet*` config option naming.
fjahr:
re-ACK 8258c4c
laanwj:
ACK 8258c4c0076bb5f27efdc117a04b27fcd6dd00b2
MarcoFalke:
Approach ACK 8258c4c007 🌵
Tree-SHA512: 5d158add96755910837feafa8214e13695b769a6aec3a2da753cf672618bef377fac43b0f4b772a87b25dd9f0c1c9b29f2789785d7a7d47a155cdcf48f7c975d
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Note that with this change we are no-longer including PTHREAD_* flags
when building libbitcoinconsensus.
Also note that we are including PTHREAD_LIBS in AM_PTHREAD_FLAGS
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-BEGIN VERIFY SCRIPT-
sed -i -e 's/\$(RELDFLAGS) \$(AM_LDFLAGS) \$(LIBTOOL_APP_LDFLAGS)$/\$(FUZZ_SUITE_LDFLAGS_COMMON)/' src/Makefile.test.include
patch -p1 << "EOF"
--- a/src/Makefile.test.include
+++ b/src/Makefile.test.include
@@ -323,6 +323,8 @@ endif
if ENABLE_FUZZ
+FUZZ_SUITE_LDFLAGS_COMMON = $(RELDFLAGS) $(AM_LDFLAGS) $(LIBTOOL_APP_LDFLAGS)
+
test_fuzz_addition_overflow_CPPFLAGS = $(AM_CPPFLAGS) $(BITCOIN_INCLUDES)
test_fuzz_addition_overflow_CXXFLAGS = $(AM_CXXFLAGS) $(PIE_FLAGS)
test_fuzz_addition_overflow_LDADD = $(FUZZ_SUITE_LD_COMMON)
EOF
-END VERIFY SCRIPT-
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ecdsa_signature_parse_der_lax(...)
46fcac1e4b9e0b1026bc0b663582148b2fd60390 tests: Add fuzzing harness for ec_seckey_import_der(...) and ec_seckey_export_der(...) (practicalswift)
b667a90389cce7e1bf882f4ac78323c48858efaa tests: Add fuzzing harness for SigHasLowR(...) and ecdsa_signature_parse_der_lax(...) (practicalswift)
Pull request description:
Add fuzzing harness for `SigHasLowR(...)` and `ecdsa_signature_parse_der_lax(...)`.
See [`doc/fuzzing.md`](https://github.com/bitcoin/bitcoin/blob/master/doc/fuzzing.md) for information on how to fuzz Bitcoin Core. Don't forget to contribute any coverage increasing inputs you find to the [Bitcoin Core fuzzing corpus repo](https://github.com/bitcoin-core/qa-assets).
Happy fuzzing :)
ACKs for top commit:
Crypt-iQ:
ACK 46fcac1e4b9e0b1026bc0b663582148b2fd60390
Tree-SHA512: 11a4856a1efd9a04030a8c8aee2413fd5be1ea248147e649a48a55bacdf732bb48a19ee1ce2761d47d4dd61c9598aec53061b961b319ad824d539dda11a8ccf4
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ec_seckey_export_der(...)
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ecdsa_signature_parse_der_lax(...)
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With this commit, make clean now removes coverage files from the
fuzzing directory. Without this, subsequent fuzzing runs would have
garbled coverage signals for files in the fuzz directory as
they were never deleted with make clean.
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78c312c983255e15fc274de2368a2ec13ce81cbf Replace current benchmarking framework with nanobench (Martin Ankerl)
Pull request description:
Replace current benchmarking framework with nanobench
This replaces the current benchmarking framework with nanobench [1], an
MIT licensed single-header benchmarking library, of which I am the
autor. This has in my opinion several advantages, especially on Linux:
* fast: Running all benchmarks takes ~6 seconds instead of 4m13s on
an Intel i7-8700 CPU @ 3.20GHz.
* accurate: I ran e.g. the benchmark for SipHash_32b 10 times and
calculate standard deviation / mean = coefficient of variation:
* 0.57% CV for old benchmarking framework
* 0.20% CV for nanobench
So the benchmark results with nanobench seem to vary less than with
the old framework.
* It automatically determines runtime based on clock precision, no need
to specify number of evaluations.
* measure instructions, cycles, branches, instructions per cycle,
branch misses (only Linux, when performance counters are available)
* output in markdown table format.
* Warn about unstable environment (frequency scaling, turbo, ...)
* For better profiling, it is possible to set the environment variable
NANOBENCH_ENDLESS to force endless running of a particular benchmark
without the need to recompile. This makes it to e.g. run "perf top"
and look at hotspots.
Here is an example copy & pasted from the terminal output:
| ns/byte | byte/s | err% | ins/byte | cyc/byte | IPC | bra/byte | miss% | total | benchmark
|--------------------:|--------------------:|--------:|----------------:|----------------:|-------:|---------------:|--------:|----------:|:----------
| 2.52 | 396,529,415.94 | 0.6% | 25.42 | 8.02 | 3.169 | 0.06 | 0.0% | 0.03 | `bench/crypto_hash.cpp RIPEMD160`
| 1.87 | 535,161,444.83 | 0.3% | 21.36 | 5.95 | 3.589 | 0.06 | 0.0% | 0.02 | `bench/crypto_hash.cpp SHA1`
| 3.22 | 310,344,174.79 | 1.1% | 36.80 | 10.22 | 3.601 | 0.09 | 0.0% | 0.04 | `bench/crypto_hash.cpp SHA256`
| 2.01 | 496,375,796.23 | 0.0% | 18.72 | 6.43 | 2.911 | 0.01 | 1.0% | 0.00 | `bench/crypto_hash.cpp SHA256D64_1024`
| 7.23 | 138,263,519.35 | 0.1% | 82.66 | 23.11 | 3.577 | 1.63 | 0.1% | 0.00 | `bench/crypto_hash.cpp SHA256_32b`
| 3.04 | 328,780,166.40 | 0.3% | 35.82 | 9.69 | 3.696 | 0.03 | 0.0% | 0.03 | `bench/crypto_hash.cpp SHA512`
[1] https://github.com/martinus/nanobench
ACKs for top commit:
laanwj:
ACK 78c312c983255e15fc274de2368a2ec13ce81cbf
Tree-SHA512: 9e18770b18b6f95a7d0105a4a5497d31cf4eb5efe6574f4482f6f1b4c88d7e0946b9a4a1e9e8e6ecbf41a3f2d7571240677dcb45af29a6f0584e89b25f32e49e
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f19fdd47a6371dcbe0760ef6f3c3c5adb31b1bb4 test: add test for CChainState::ResizeCoinsCaches() (James O'Beirne)
8ac3ef46999ed676ca3775f7b2f461d92f09a542 add ChainstateManager::MaybeRebalanceCaches() (James O'Beirne)
f36aaa6392fdbdac6891d92202d3efeff98754f4 Add CChainState::ResizeCoinsCaches (James O'Beirne)
b223111da2e0e9ceccef75df8a20252b0094b7bc txdb: add CCoinsViewDB::ChangeCacheSize (James O'Beirne)
Pull request description:
This is part of the [assumeutxo project](https://github.com/bitcoin/bitcoin/projects/11):
Parent PR: #15606
Issue: #15605
Specification: https://github.com/jamesob/assumeutxo-docs/tree/master/proposal
---
In the assumeutxo implementation draft (#15056), once a UTXO snapshot is loaded, a new chainstate object is created after initialization. This means that we have to reclaim some of the cache that we've allocated to the original chainstate (per `dbcache=`) to repurpose for the snapshot chainstate.
Furthermore, it makes sense to have different cache allocations depending on which chainstate is more active. While the snapshot chainstate is working to get to the network tip (and the background validation chainstate is idle), it makes sense that the snapshot chainstate should have the majority of cache allocation. And contrariwise once the snapshot has reached network tip, most of the cache should be given to the background validation chainstate.
This set of changes (detailed in the commit messages) allows us to dynamically resize the various coins caches. None of the functionality introduced here is used at the moment, but will be in the next AU PR (which introduces `ActivateSnapshot`).
`ChainstateManager::MaybeRebalanceCaches()` defines the (somewhat normative) cache allocations between the snapshot and background validation chainstates. I'd be interested in feedback if anyone has thoughts on the proportions I've set there.
ACKs for top commit:
ajtowns:
weak utACK f19fdd47a6371dcbe0760ef6f3c3c5adb31b1bb4 -- didn't find any major problems, but not super confident that I didn't miss anything
fjahr:
Code review ACK f19fdd4
ryanofsky:
Code review ACK f19fdd47a6371dcbe0760ef6f3c3c5adb31b1bb4. Only change since last review is constructor cleanup (no change in behavior). I think the suggestions here from ajtowns and others are good, but shouldn't delay merging the PR (and hold up assumeutxo)
Tree-SHA512: fffb7847fb6993dd4a1a41cf11179b211b0b20b7eb5f7cf6266442136bfe9d43b830bbefcafd475bfd4af273f5573500594aa41fff03e0ed5c2a1e8562ff9269
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LoadExternalBlockFile and other FILE* consumers
ad6c34881dc125c973b6b9ba1daa999d3141b1ae tests: Add fuzzing harness for CBlockPolicyEstimator::{Read,Write} (policy/fees.h) (practicalswift)
614e0807a8137d82832aea45e4864b424f71f698 tests: Add fuzzing harness for CBufferedFile::{SetPos,GetPos,GetType,GetVersion} (stream.h) (practicalswift)
7bcc71e5f8cdfd8ba1411c799c0726f503e52343 tests: Add fuzzing harness for LoadExternalBlockFile(...) (validation.h) (practicalswift)
98233760305a36acbd41d76aeebeada1340f6367 tests: Add fuzzing harness for CBufferedFile (streams.h) (practicalswift)
f3aa659be676a4dd0c20fe6c5cb4acd7a5b38b76 tests: Add fuzzing harness for CAutoFile (streams.h) (practicalswift)
e507c0799d759355dd0cfbe83449f0f767a7264e tests: Add serialization/deserialization fuzzing helpers WriteToStream(…)/ReadFromStream(…) (practicalswift)
e48094a506ad031d211b9dfe7639d8b3a2239788 tests: Add FuzzedAutoFileProvider which provides a CAutoFile interface to FuzzedDataProvider (practicalswift)
9dbcd6854ca05a9bd1e9a5e1222dac1758048231 tests: Add FuzzedFileProvider which provides a FILE* interface to FuzzedDataProvider using fopencookie (practicalswift)
Pull request description:
Add fuzzing harnesses for `CAutoFile`, `CBufferedFile`, `LoadExternalBlockFile` and other `FILE*` consumers:
* Add `FuzzedFileProvider` which provides a `FILE*` interface to `FuzzedDataProvider` using `fopencookie`
* Add `FuzzedAutoFileProvider` which provides a `CAutoFile` interface to `FuzzedDataProvider`
* Add serialization/deserialization fuzzing helpers `WriteToStream(…)`/`ReadFromStream(…)`
* Add fuzzing harness for `CAutoFile` (`streams.h`)
* Add fuzzing harness for `CBufferedFile` (`streams.h`)
* Add fuzzing harness for `LoadExternalBlockFile(...)` (`validation.h`)
* Add fuzzing harness for `CBlockPolicyEstimator::Read` and `CBlockPolicyEstimator::Write` (`policy/fees.h`)
See [`doc/fuzzing.md`](https://github.com/bitcoin/bitcoin/blob/master/doc/fuzzing.md) for information on how to fuzz Bitcoin Core. Don't forget to contribute any coverage increasing inputs you find to the [Bitcoin Core fuzzing corpus repo](https://github.com/bitcoin-core/qa-assets).
Happy fuzzing :)
ACKs for top commit:
Crypt-iQ:
Tested ACK ad6c348
Tree-SHA512: a38e142608218496796a527d7e59b74e30279a2815450408b7c27a76ed600cebc6b88491e831665a0639671e2d212453fcdca558500bbadbeb32b267751f8f72
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poly1305_auth, CHKDF_HMAC_SHA256_L32, ChaCha20 and ChaCha20Poly1305AEAD
cca7c577d5d80293cb12de1048f3edd680ac4fad tests: Add fuzzing harness for ChaCha20Poly1305AEAD (practicalswift)
2fc4e5916c1c35902a32830c3f199a308a66bea0 tests: Add fuzzing harness for ChaCha20 (practicalswift)
e9e8aac029acffb5e4cc5c2556f23cdfdcf9bb09 tests: Add fuzzing harness for CHKDF_HMAC_SHA256_L32 (practicalswift)
ec86ca1aaae388cefa2da9904785cee2d550b3d1 tests: Add fuzzing harness for poly1305_auth(...) (practicalswift)
4cee53bba722a480ccd6472d2ffe9b0001394dd9 tests: Add fuzzing harness for AES256CBCEncrypt/AES256CBCDecrypt (practicalswift)
9352c3232594f953d2db11c1e140be3f7f9fbae4 tests: Add fuzzing harness for AES256Encrypt/AES256Decrypt (practicalswift)
Pull request description:
Add fuzzing harness for `AES{CBC,}256{Encrypt,Decrypt}`, `poly1305_auth`, `CHKDF_HMAC_SHA256_L32`, `ChaCha20` and `ChaCha20Poly1305AEAD`.
See [`doc/fuzzing.md`](https://github.com/bitcoin/bitcoin/blob/master/doc/fuzzing.md) for information on how to fuzz Bitcoin Core. Don't forget to contribute any coverage increasing inputs you find to the [Bitcoin Core fuzzing corpus repo](https://github.com/bitcoin-core/qa-assets).
Happy fuzzing :)
ACKs for top commit:
laanwj:
ACK cca7c577d5d80293cb12de1048f3edd680ac4fad
Tree-SHA512: cff9acefe370c12a3663aa55145371df835479c6ab8f6d81bbf84e0f81a9d6b0d94e45ec545f9dd5e1702744eaa7947a1f4ffed0171f446fc080369161afd740
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(policy/fees.h)
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fa525e4d1cfda8c1924d2c69f43bd7ae3b98fb72 net: Avoid wasting inv traffic during IBD (MarcoFalke)
fa06d7e93489e61078cfb95ab767c001536a6e10 refactor: block import implies IsInitialBlockDownload (MarcoFalke)
faba65e696a88e5626e587f4e63fa15500cbe4d0 Add ChainstateManager::ActiveChainstate (MarcoFalke)
fabf3d64ff2bd14f762810316144bb9fd69c517c test: Add FeeFilterRounder test (MarcoFalke)
Pull request description:
Tx-inv messages are ignored during IBD, so it would be nice if we told peers to not send them in the first place. Do that by sending two `feefilter` messages: One when the connection is made (and the node is in IBD), and another one when the node leaves IBD.
ACKs for top commit:
jamesob:
ACK fa525e4d1cfda8c1924d2c69f43bd7ae3b98fb72 ([`jamesob/ackr/19204.1.MarcoFalke.p2p_reduce_inv_traffic_d`](https://github.com/jamesob/bitcoin/tree/ackr/19204.1.MarcoFalke.p2p_reduce_inv_traffic_d))
naumenkogs:
utACK fa525e4
gzhao408:
ACK https://github.com/bitcoin/bitcoin/commit/fa525e4d1cfda8c1924d2c69f43bd7ae3b98fb72
jonatack:
re-ACK fa525e4 checked diff `git range-diff 19612ca fa8a66c fa525e4`, re-reviewed, ran tests, ran a custom p2p IBD behavior test at https://github.com/jonatack/bitcoin/commit/9321e0f223ea87d21f6fa42b61bcc8d40a0943de.
hebasto:
re-ACK fa525e4d1cfda8c1924d2c69f43bd7ae3b98fb72, only rebased since the [previous](https://github.com/bitcoin/bitcoin/pull/19204#pullrequestreview-429519667) review (verified with `git range-diff`).
Tree-SHA512: 2c22a5def9822396fca45d808b165b636f1143c4bdb2eaa5c7e977f1f18e8b10c86d4c180da488def38416cf3076a26de15014dfd4d86b2a7e5af88c74afb8eb
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CRIPEMD160, CSipHasher, etc.
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This replaces the current benchmarking framework with nanobench [1], an
MIT licensed single-header benchmarking library, of which I am the
autor. This has in my opinion several advantages, especially on Linux:
* fast: Running all benchmarks takes ~6 seconds instead of 4m13s on
an Intel i7-8700 CPU @ 3.20GHz.
* accurate: I ran e.g. the benchmark for SipHash_32b 10 times and
calculate standard deviation / mean = coefficient of variation:
* 0.57% CV for old benchmarking framework
* 0.20% CV for nanobench
So the benchmark results with nanobench seem to vary less than with
the old framework.
* It automatically determines runtime based on clock precision, no need
to specify number of evaluations.
* measure instructions, cycles, branches, instructions per cycle,
branch misses (only Linux, when performance counters are available)
* output in markdown table format.
* Warn about unstable environment (frequency scaling, turbo, ...)
* For better profiling, it is possible to set the environment variable
NANOBENCH_ENDLESS to force endless running of a particular benchmark
without the need to recompile. This makes it to e.g. run "perf top"
and look at hotspots.
Here is an example copy & pasted from the terminal output:
| ns/byte | byte/s | err% | ins/byte | cyc/byte | IPC | bra/byte | miss% | total | benchmark
|--------------------:|--------------------:|--------:|----------------:|----------------:|-------:|---------------:|--------:|----------:|:----------
| 2.52 | 396,529,415.94 | 0.6% | 25.42 | 8.02 | 3.169 | 0.06 | 0.0% | 0.03 | `bench/crypto_hash.cpp RIPEMD160`
| 1.87 | 535,161,444.83 | 0.3% | 21.36 | 5.95 | 3.589 | 0.06 | 0.0% | 0.02 | `bench/crypto_hash.cpp SHA1`
| 3.22 | 310,344,174.79 | 1.1% | 36.80 | 10.22 | 3.601 | 0.09 | 0.0% | 0.04 | `bench/crypto_hash.cpp SHA256`
| 2.01 | 496,375,796.23 | 0.0% | 18.72 | 6.43 | 2.911 | 0.01 | 1.0% | 0.00 | `bench/crypto_hash.cpp SHA256D64_1024`
| 7.23 | 138,263,519.35 | 0.1% | 82.66 | 23.11 | 3.577 | 1.63 | 0.1% | 0.00 | `bench/crypto_hash.cpp SHA256_32b`
| 3.04 | 328,780,166.40 | 0.3% | 35.82 | 9.69 | 3.696 | 0.03 | 0.0% | 0.03 | `bench/crypto_hash.cpp SHA512`
[1] https://github.com/martinus/nanobench
* Adds support for asymptotes
This adds support to calculate asymptotic complexity of a benchmark.
This is similar to #17375, but currently only one asymptote is
supported, and I have added support in the benchmark `ComplexMemPool`
as an example.
Usage is e.g. like this:
```
./bench_bitcoin -filter=ComplexMemPool -asymptote=25,50,100,200,400,600,800
```
This runs the benchmark `ComplexMemPool` several times but with
different complexityN settings. The benchmark can extract that number
and use it accordingly. Here, it's used for `childTxs`. The output is
this:
| complexityN | ns/op | op/s | err% | ins/op | cyc/op | IPC | total | benchmark
|------------:|--------------------:|--------------------:|--------:|----------------:|----------------:|-------:|----------:|:----------
| 25 | 1,064,241.00 | 939.64 | 1.4% | 3,960,279.00 | 2,829,708.00 | 1.400 | 0.01 | `ComplexMemPool`
| 50 | 1,579,530.00 | 633.10 | 1.0% | 6,231,810.00 | 4,412,674.00 | 1.412 | 0.02 | `ComplexMemPool`
| 100 | 4,022,774.00 | 248.58 | 0.6% | 16,544,406.00 | 11,889,535.00 | 1.392 | 0.04 | `ComplexMemPool`
| 200 | 15,390,986.00 | 64.97 | 0.2% | 63,904,254.00 | 47,731,705.00 | 1.339 | 0.17 | `ComplexMemPool`
| 400 | 69,394,711.00 | 14.41 | 0.1% | 272,602,461.00 | 219,014,691.00 | 1.245 | 0.76 | `ComplexMemPool`
| 600 | 168,977,165.00 | 5.92 | 0.1% | 639,108,082.00 | 535,316,887.00 | 1.194 | 1.86 | `ComplexMemPool`
| 800 | 310,109,077.00 | 3.22 | 0.1% |1,149,134,246.00 | 984,620,812.00 | 1.167 | 3.41 | `ComplexMemPool`
| coefficient | err% | complexity
|--------------:|-------:|------------
| 4.78486e-07 | 4.5% | O(n^2)
| 6.38557e-10 | 21.7% | O(n^3)
| 3.42338e-05 | 38.0% | O(n log n)
| 0.000313914 | 46.9% | O(n)
| 0.0129823 | 114.4% | O(log n)
| 0.0815055 | 133.8% | O(1)
The best fitting curve is O(n^2), so the algorithm seems to scale
quadratic with `childTxs` in the range 25 to 800.
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This commit does not change behavior
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748977690e0519110cda9628162a7ccf73a5934b Add asmap_direct fuzzer that tests Interpreter directly (Pieter Wuille)
7cf97fda154ba837933eb05be5aeecfb69a06641 Make asmap Interpreter errors fatal and fuzz test it (Pieter Wuille)
c81aefc5377888c7ac4f29f570249fd6c2fdb352 Add additional effiency checks to sanity checker (Pieter Wuille)
fffd8dca2de39ad4a683f0dce57cdca55ed2f600 Add asmap sanity checker (Pieter Wuille)
5feefbe6e7b6cdd809eba4074d41dc95a7035f7e Improve asmap Interpret checks and document failures (Pieter Wuille)
2b3dbfa5a63cb5a6625ec00294ebd933800f0255 Deal with decoding failures explicitly in asmap Interpret (Pieter Wuille)
1479007a335ab43af46f527d0543e254fc2a8e86 Introduce Instruction enum in asmap (Pieter Wuille)
Pull request description:
This improves/documents the failure cases inside the asmap interpreter. None of the changes are bug fixes (they only change behavior for corrupted asmap files), but they may make things easier to follow.
In a second step, a sanity checker is added that effectively executes every potential code path through the asmap file, checking the same failure cases as the interpreter, and more. It takes around 30 ms to run for me for a 1.2 MB asmap file.
I've verified that this accepts asmap files constructed by https://github.com/sipa/asmap/blob/master/buildmap.py with a large dataset, and no longer accepts it with 1 bit changed in it.
ACKs for top commit:
practicalswift:
ACK 748977690e0519110cda9628162a7ccf73a5934b modulo feedback below.
jonatack:
ACK 748977690e0519110cda9628162a7ccf73a5934b code review, regular build/tests/ran bitcoin with -asmap, fuzz build/ran both fuzzers overnight.
fjahr:
ACK 748977690e0519110cda9628162a7ccf73a5934b
Tree-SHA512: d876df3859735795c857c83e7155ba6851ce839bdfa10c18ce2698022cc493ce024b5578c1828e2a94bcdf2552c2f46c392a251ed086691b41959e62a6970821
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other functions in util/message.h
38e49ded8bd079f8da8b270b39f81cc5cf3ada11 tests: Add fuzzing harness for MessageSign, MessageVerify and other functions in util/message.h (practicalswift)
Pull request description:
Add fuzzing harness for `MessageSign`, `MessageVerify` and other functions in `util/message.h`.
See [`doc/fuzzing.md`](https://github.com/bitcoin/bitcoin/blob/master/doc/fuzzing.md) for information on how to fuzz Bitcoin Core. Don't forget to contribute any coverage increasing inputs you find to the [Bitcoin Core fuzzing corpus repo](https://github.com/bitcoin-core/qa-assets).
Happy fuzzing :)
ACKs for top commit:
vasild:
utACK 38e49ded8bd079f8da8b270b39f81cc5cf3ada11
Tree-SHA512: 4f83718365d9c7e772a4ccecb31817bf17117efae2bfaf6e9618ff17908def0c8b97b5fa2504d51ab38b2e6f82c046178dd751495cc37ab4779c0b1ac1a4d211
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