bb5c24b120 validation: move g_versionbitscache into ChainstateManager (Anthony Towns)
eca22c726a test/versionbits: make versionbitscache a parameter (Anthony Towns)
d603f1d8a7 deploymentstatus: make versionbitscache a parameter (Anthony Towns)
78adef1753 refactor: use chainman instead of chainParams for DeploymentActive* (Anthony Towns)
deffe0df6c deploymentstatus: allow chainman in place of consensusParams (Anthony Towns)
eaa2e3f25c validation: move UpdateUncommittedBlockStructures and GenerateCoinbaseCommitment into ChainstateManager (Anthony Towns)
5c67e84d37 validation: replace ::Params() calls with chainstate/chainman member (Anthony Towns)
38860f93b6 validation: remove redundant CChainParams params from ChainstateManager methods (Anthony Towns)
69675ea4e7 validation: add CChainParams to ChainstateManager (Anthony Towns)
Pull request description:
Gives `ChainstateManager` a reference to the `CChainParams` its working on, and simplifies some of the functions that would otherwise take that as a parameter. Removes the `g_versionbitscache` global by moving it into `ChainstateManager`.
ACKs for top commit:
dongcarl:
reACK bb5c24b120
MarcoFalke:
review ACK bb5c24b120📙
Tree-SHA512: 3fa74905e5df561e3e74bb0b8fce6085c5311e6633e7d74c0fb0c82a907f5bbb1fd4ebc5d11d4f0b1c019bb51eabb9f6e4bcc4652a696d36a5878c807b85f121
fac6cfc50f refactor: Change * to & in MutableTransactionSignatureCreator (MarcoFalke)
Pull request description:
The `MutableTransactionSignatureCreator` constructor takes in a pointer to a mutable transaction. This is problematic for several reasons:
* It would be undefined behaviour to pass in a nullptr because for signature creation, the memory of the mutable transaction is accessed
* No caller currently passes in a nullptr, so passing a reference as a pointer is confusing
Fix all issues by replacing `*` with `&` in `MutableTransactionSignatureCreator`
ACKs for top commit:
theStack:
Code-review ACK fac6cfc50f
jonatack:
ACK fac6cfc50f
Tree-SHA512: d84296b030bd4fa2709e5adbfe43a5f8377d218957d844af69a819893252af671df7f00004f5ba601a0bd70f3c1c2e58c4f00e75684da663f28432bb5c89fb86
We add an RPC to fetch the mempool transactions spending given outpoints.
Without this RPC, application developers would need to first call
`getrawmempool` which returns a long list of `txid`, then fetch each of
these txs individually to check whether they spend the given outpoint(s).
This RPC can later be enriched to also find confirmed transactions instead
of being restricted to mempool transactions.
Parse also key hashes using the Key type. Make this target the first of
the 4 Miniscript fuzz targets in a single `miniscript` file.
Co-authored-by: Pieter Wuille <pieter.wuille@gmail.com>
Base32/base64 are mechanisms for encoding binary data. That they'd
decode to a string is just bizarre. The fact that they'd do that
based on the type of input arguments even more so.
a62e84438d fuzz: add `SplitString` fuzz target (MarcoFalke)
4fad7e46d9 test: add unit tests for `SplitString` helper (Kiminuo)
9cc8e876e4 refactor: introduce single-separator split helper `SplitString` (Sebastian Falbesoner)
Pull request description:
This PR adds a simple string split helper `SplitString` that takes use of the spanparsing `Split` function that was first introduced in #13697 (commit fe8a7dcd78). This enables to replace most calls to `boost::split`, in the cases where only a single separator character is used. Note that while previous attempts to replace `boost::split` were controversial (e.g. #13751), this one has a trivial implementation: it merely uses an internal helper (that is unit tested and in regular use with output descriptiors) and converts its result from spans to strings. As a drawback though, not all `boost::split` instances can be tackled.
As a possible optimization, one could return a vector of `std::string_view`s (available since C++17) instead of strings, to avoid copies. This would need more carefulness on the caller sites though, to avoid potential lifetime issues, and it's probably not worth it, considering that none of the places where strings are split are really performance-critical.
ACKs for top commit:
martinus:
Code review ACK a62e84438d. Ran all tests. I also like that with `boost::split` it was not obvious that the resulting container was cleared, and with `SplitString` API that's obvious.
Tree-SHA512: 10cb22619ebe46831b1f8e83584a89381a036b54c88701484ac00743e2a62cfe52c9f3ecdbb2d0815e536c99034558277cc263600ec3f3588b291c07eef8ed24
36f814c0e8 [netgroupman] Remove NetGroupManager::GetAsmap() (John Newbery)
4709fc2019 [netgroupman] Move asmap checksum calculation to NetGroupManager (John Newbery)
1b978a7e8c [netgroupman] Move GetMappedAS() and GetGroup() logic to NetGroupManager (John Newbery)
ddb4101e63 [net] Only use public CNetAddr functions and data in GetMappedAS() and GetGroup() (John Newbery)
6b2268162e [netgroupman] Add GetMappedAS() and GetGroup() (John Newbery)
19431560e3 [net] Move asmap into NetGroupManager (John Newbery)
17c24d4580 [init] Add netgroupman to node.context (John Newbery)
9b3836710b [build] Add netgroup.cpp|h (John Newbery)
Pull request description:
The asmap data is currently owned by addrman, but is used by both addrman and connman. #22791 made the data const and private (so that it can't be updated by other components), but it is still passed out of addrman as a reference to const, and used by `CNetAddress` to calculate the group and AS of the net address.
This RFC PR proposes to move all asmap data and logic into a new `NetGroupManager` component. This is initialized at startup, and the client components addrman and connman simply call `NetGroupManager::GetGroup(const CAddress&)` and `NetGroupManager::GetMappedAS(const CAddress&)` to get the net group and AS of an address.
ACKs for top commit:
mzumsande:
Code Review ACK 36f814c0e8
jnewbery:
CI failure seems spurious. I rebased onto latest master to trigger a new CI run, but whilst I was doing that, mzumsande ACKed 36f814c0e8, so I've reverted to that.
dergoegge:
Code review ACK 36f814c0e8
Tree-SHA512: 244a89cdfd720d8cce679eae5b7951e1b46b37835fccb6bdfa362856761bb110e79e263a6eeee8246140890f3bee2850e9baa7bc14a388a588e0e29b9d275175
This helper uses spanparsing::Split internally and enables to replace
all calls to boost::split where only a single separator is passed.
Co-authored-by: Martin Ankerl <Martin.Ankerl@gmail.com>
Co-authored-by: MarcoFalke <falke.marco@gmail.com>
2da94a4c6f fuzz: add a fuzz target for Miniscript decoding from Script (Antoine Poinsot)
f8369996e7 Miniscript: ops limit and stack size computation (Pieter Wuille)
2e55e88f86 Miniscript: conversion from script (Pieter Wuille)
1ddaa66eae Miniscript: type system, script creation, text notation, tests (Pieter Wuille)
4fe29368c0 script: expose getter for CScriptNum, add a BuildScript helper (Antoine Poinsot)
f4e289f384 script: move CheckMinimalPush from interpreter to script.h (Antoine Poinsot)
31ec6ae92a script: make IsPushdataOp non-static (Antoine Poinsot)
Pull request description:
Miniscript is a language for writing (a subset of) Bitcoin Scripts in a structured way.
Miniscript permits:
- To safely extend the Output Descriptor language to many more scripting features thanks to the typing system (composition).
- Statical analysis of spending conditions, maximum spending cost of each branch, security properties, third-party malleability.
- General satisfaction of any correctly typed ("valid" [0]) Miniscript. The satisfaction itself is also analyzable.
- To extend the possibilities of external signers, because of all of the above and since it carries enough metadata.
Miniscript guarantees:
- That for any statically-analyzed as "safe" [0] Script, a witness can be constructed in the bounds of the consensus and standardness rules (standardness complete).
- That unless the conditions of the Miniscript are met, no witness can be created for the Script (consensus sound).
- Third-party malleability protection for the satisfaction of a sane Miniscript, which is too complex to summarize here.
For more details around Miniscript (including the specifications), please refer to the [website](https://bitcoin.sipa.be/miniscript/).
Miniscript was designed by Pieter Wuille, Andrew Poelstra and Sanket Kanjalkar.
This PR is an updated and rebased version of #16800. See [the commit history of the Miniscript repository](https://github.com/sipa/miniscript/commits/master) for details about the changes made since September 2019 (TL;DR: bugfixes, introduction of timelock conflicts in the type system, `pk()` and `pkh()` aliases, `thresh_m` renamed to `multi`, all recursive algorithms were made non-recursive).
This PR is also the first in a series of 3:
- The first one (here) integrates the backbone of Miniscript.
- The second one (#24148) introduces support for Miniscript in Output Descriptors, allowing for watch-only support of Miniscript Descriptors in the wallet.
- The third one (#24149) implements signing for these Miniscript Descriptors, using Miniscript's satisfaction algorithm.
Note to reviewers:
- Miniscript is currently defined only for P2WSH. No Taproot yet.
- Miniscript is different from the policy language (a high-level logical representation of a spending policy). A policy->Miniscript compiler is not included here.
- The fuzz target included here is more interestingly extended in the 3rd PR to check a script's satisfaction against `VerifyScript`. I think it could be further improved by having custom mutators as we now have for multisig (see https://github.com/bitcoin/bitcoin/issues/23105). A minified corpus of Miniscript Scripts is available at https://github.com/bitcoin-core/qa-assets/pull/85.
[0] We call "valid" any correctly-typed Miniscript. And "safe" any sane Miniscript, ie one whose satisfaction isn't malleable, which requires a key for any spending path, etc..
ACKs for top commit:
jb55:
ACK 2da94a4c6f
laanwj:
Light code review ACK 2da94a4c6f (mostly reviewed the changes to the existing code and build system)
Tree-SHA512: d3ef558436cfcc699a50ad13caf1e776f7d0addddb433ee28ef38f66ea5c3e581382d8c748ccac9b51768e4b95712ed7a6112b0e3281a6551e0f325331de9167
f59bee3fb2 fuzz: execute each file in dir without fuzz engine (Anthony Towns)
Pull request description:
Phony fuzzing (phuzzing)! Run the fuzz testing code against known inputs to detect errors. Advantage is you can easily test using the existing qa-assets datasets without having to compile with fuzzing enabled; disadvantage is that it doesn't do any actual fuzzing.
Example usage:
```
$ for a in ${QA_ASSETS}/fuzz_seed_corpus/*; do echo ${a##*/}; done | xargs -P8 -I {} /bin/sh -c "FUZZ={} test/fuzz/fuzz ${QA_ASSETS}/fuzz_seed_corpus/{}"
No fuzzer for address_deserialize.
No fuzzer for addrdb.
No fuzzer for banentry_deserialize.
addition_overflow: succeeded against 848 files in 0s.
asmap: succeeded against 981 files in 0s.
checkqueue: succeeded against 211 files in 0s.
...
```
(`-P8` says run 8 of the tasks in parallel)
If there are failures, the first one will be reported and the program will abort with output like:
```
fuzz: test/fuzz/versionbits.cpp:336: void (anonymous namespace)::versionbits_fuzz_target(FuzzBufferType): Assertion `exp_state != ThresholdState::FAILED' failed.
Error processing seed "corpus/versionbits/35345ae8e722234095810b1117a29b63af7621af"
```
Rebase of #22763, which was a rebase of #21496, but also reports the name of the fuzzer and the time taken.
Fixes #21461
Top commit has no ACKs.
Tree-SHA512: d8d046d4a309652eb13de42116276bf992480bc887ad3535a8ff18b354cb24826bc562b06af63802ec945c637f046563b6a5601d6321b46a5543127daafea09b
bbbbeaf9c8 fuzz: Limit script_format to 100kB (MarcoFalke)
Pull request description:
The target is still one of the slowest ones, but doesn't seem incredibly important. Especially for sizes larger than the standard tx size.
Fix that by limiting the script size.
ACKs for top commit:
fanquake:
ACK bbbbeaf9c8
Tree-SHA512: b6cf7248753909ef2f21d8824f187e7c05732dd3b99619c0067f862f3c2b0f9a87779d4ddbbd3a7a4bae5c794280e2f0a223bf835d6bc6ccaba01817d69479a2
36ee76d1af net: remove unused CNetAddr::GetHash() (Vasil Dimov)
d0abce9a50 net: include the port when deciding a relay destination (Vasil Dimov)
2e38a0e686 net: add CServiceHash constructor so the caller can provide the salts (Vasil Dimov)
97208634b9 net: open p2p connections to nodes that listen on non-default ports (Vasil Dimov)
Pull request description:
By default, for mainnet, the p2p listening port is 8333. Bitcoin Core
has a strong preference for only connecting to nodes that listen on that
port.
Remove that preference because connections over clearnet that involve
port 8333 make it easy to detect, analyze, block or divert Bitcoin p2p
traffic before the connection is even established (at TCP SYN time).
For further justification see the OP of:
https://github.com/bitcoin/bitcoin/pull/23306
ACKs for top commit:
laanwj:
Concept and light code review ACK 36ee76d1af
prayank23:
ACK 36ee76d1af
stickies-v:
tACK 36ee76d1a
jonatack:
ACK 36ee76d1af
glozow:
utACK 36ee76d1af
Tree-SHA512: 7f45ab7567c51c19fc50fabbaf84f0cc8883a8eef84272b76435c014c31d89144271d70dd387212cc1114213165d76b4d20a5ddb8dbc958fe7e74e6ddbd56d11
