fa895c7283 mingw: Document mode wbx workaround (MarcoFalke)
fa359255fe Add -blocksxor boolean option (MarcoFalke)
fa7f7ac040 Return XOR AutoFile from BlockManager::Open*File() (MarcoFalke)
Pull request description:
Currently the *.dat files in the blocksdir store the data received from remote peers as-is. This may be problematic when a program other than Bitcoin Core tries to interpret them by accident. For example, an anti-virus program or other program may scan them and move them into quarantine, or delete them, or corrupt them. This may cause Bitcoin Core to fail a reorg, or fail to reply to block requests (via P2P, RPC, REST, ...).
Fix this, similar to https://github.com/bitcoin/bitcoin/pull/6650, by rolling a random XOR pattern over the dat files when writing or reading them.
Obviously this can only protect against programs that accidentally and unintentionally are trying to mess with the dat files. Any program that intentionally wants to mess with the dat files can still trivially do so.
The XOR pattern is only applied when the blocksdir is freshly created, and there is an option to disable it (on creation), so that people can disable it, if needed.
ACKs for top commit:
achow101:
ACK fa895c7283
TheCharlatan:
Re-ACK fa895c7283
hodlinator:
ACK fa895c7283
Tree-SHA512: c92a6a717da83bc33a9b8671a779eeefde2c63b192362ba1d71e6535ee31d08e2802b74acc908345197de9daac6930e4771595ee25b09acd5a67f7ea34854720
172c1ad026 test: expand LimitOrphan and EraseForPeer coverage (Greg Sanders)
28dbe218fe refactor: move orphanage constants to header file (Greg Sanders)
Pull request description:
Inspired by refactorings in #30000 as the coverage appeared a bit sparse.
Added some minimal border value testing, timeouts, and tightened existing assertions.
ACKs for top commit:
achow101:
ACK 172c1ad026
rkrux:
reACK [172c1ad](172c1ad026)
glozow:
reACK 172c1ad026
Tree-SHA512: e8fa9b1de6a8617612bbe9b132c9c0c9b5a651ec94fd8c91042a34a8c91c5f9fa7ec4175b47e2b97d1320d452c23775be671a9970613533e68e81937539a7d70
When using `sendrawtransaction` the ALREADY_IN_CHAIN error help string
may be confusing.
Rename TransactionError::ALREADY_IN_CHAIN to
TransactionError::ALREADY_IN_UTXO_SET and update the rpc help string.
Remove backwards compatibility alias as no longer required.
chainparams.cpp - workaround for MSVC bug triggering C7595 - Calling consteval constructors in initializer lists fails, but works on GCC (13.2.0) & Clang (17.0.6).
Complements uint256::FromHex() nicely in that it naturally does all error checking at compile time and so doesn't need to return an std::optional.
Will be used in the following 2 commits to replace many calls to uint256S(). uint256S() calls taking C-string literals are littered throughout the codebase and executed at runtime to perform parsing unless a given optimizer was surprisingly efficient. While this may not be a hot spot, it's better hygiene in C++20 to store the parsed data blob directly in the binary, without any parsing at runtime.
bf0efb4fc7 scripted-diff: Modernize naming of nChainTx and nTxCount (Fabian Jahr)
72e5d1be1f test: Add basic check for nChainTx type (Fabian Jahr)
dc2938e979 chainparams: Change nChainTx to uint64_t (Fabian Jahr)
Pull request description:
This picks up the work from #29331 and closes #29258.
This simply changes the type and addresses the comments from #29331 by changing the type in all relevant places and removing unnecessary casts. This also adds an extremely simple unit test.
Additionally this modernizes the name of `nChainTx` which helps reviewers check all use of the symbol and can make silent merge conflicts.
ACKs for top commit:
maflcko:
only rebase in scripted-diff, re-ACK bf0efb4fc7🔈
glozow:
reACK bf0efb4fc7 via range-diff
Tree-SHA512: ee4020926d0800236fe655d0c7b127215ab36b553b04d5f91494f4b7fac6e1cfe7ee298b07c0983db5a3f4786932acaa54f5fd2ccd45f2fcdcfa13427358dc3b
bbcee5a0d6 clusterlin: improve rechunking in LinearizationChunking (optimization) (Pieter Wuille)
04d7a04ea4 clusterlin: add MergeLinearizations function + fuzz test + benchmark (Pieter Wuille)
4f8958d756 clusterlin: add PostLinearize + benchmarks + fuzz tests (Pieter Wuille)
0e2812d293 clusterlin: add algorithms for connectedness/connected components (Pieter Wuille)
0e52728a2d clusterlin: rename Intersect -> IntersectPrefixes (Pieter Wuille)
Pull request description:
Part of cluster mempool: #30289
Depends on #30126, and was split off from it. #28676 depends on this.
This adds the algorithms for merging & postprocessing linearizations.
The `PostLinearize(depgraph, linearization)` function performs an in-place improvement of `linearization`, using two iterations of the [Linearization post-processing](https://delvingbitcoin.org/t/linearization-post-processing-o-n-2-fancy-chunking/201/8) algorithm. The first running from back to front, the second from front to back.
The `MergeLinearizations(depgraph, linearization1, linearization2)` function computes a new linearization for the provided cluster, given two existing linearizations for that cluster, which is at least as good as both inputs. The algorithm is described at a high level in [merging incomparable linearizations](https://delvingbitcoin.org/t/merging-incomparable-linearizations/209).
For background and references, see [Introduction to cluster linearization](https://delvingbitcoin.org/t/introduction-to-cluster-linearization/1032).
ACKs for top commit:
sdaftuar:
ACK bbcee5a0d6
glozow:
code review ACK bbcee5a0d6
instagibbs:
ACK bbcee5a0d6
Tree-SHA512: d2b5a3f132d1ef22ddf9c56421ab8b397efe45b3c4c705548dda56f5b39fe4b8f57a0d2a4c65b338462d80bb5b9b84a9a39efa1b4f390420a8005ce31817774e
73e3fa10b4 doc + test: Correct uint256 hex string endianness (Hodlinator)
Pull request description:
This PR is a follow-up to #30436.
Only changes test-code and modifies/adds comments.
Byte order of hex string representation was wrongfully documented as little-endian, but are in fact closer to "big-endian" (endianness is a memory-order concept rather than a numeric concept). `[arith_]uint256` both store their data in arrays with little-endian byte order (`arith_uint256` has host byte order within each `uint32_t` element).
**uint256_tests.cpp** - Avoid using variable from the left side of the condition in the right side. Credits to @maflcko: https://github.com/bitcoin/bitcoin/pull/30436#discussion_r1688273553
**setup_common.cpp** - Skip needless ArithToUint256-conversion. Credits to @stickies-v: https://github.com/bitcoin/bitcoin/pull/30436#discussion_r1688621638
---
<details>
<summary>
## Logical reasoning for endianness
</summary>
1. Comparing an `arith_uint256` (`base_uint<256>`) to a `uint64_t` compares the beginning of the array, and verifies the remaining elements are zero.
```C++
template <unsigned int BITS>
bool base_uint<BITS>::EqualTo(uint64_t b) const
{
for (int i = WIDTH - 1; i >= 2; i--) {
if (pn[i])
return false;
}
if (pn[1] != (b >> 32))
return false;
if (pn[0] != (b & 0xfffffffful))
return false;
return true;
}
```
...that is consistent with little endian ordering of the array.
2. They have the same endianness (but `arith_*` has host-ordering of each `uint32_t` element):
```C++
arith_uint256 UintToArith256(const uint256 &a)
{
arith_uint256 b;
for(int x=0; x<b.WIDTH; ++x)
b.pn[x] = ReadLE32(a.begin() + x*4);
return b;
}
```
### String conversions
The reversal of order which happens when converting hex-strings <=> uint256 means strings are actually closer to big-endian, see the end of `base_blob<BITS>::SetHexDeprecated`:
```C++
unsigned char* p1 = m_data.data();
unsigned char* pend = p1 + WIDTH;
while (digits > 0 && p1 < pend) {
*p1 = ::HexDigit(trimmed[--digits]);
if (digits > 0) {
*p1 |= ((unsigned char)::HexDigit(trimmed[--digits]) << 4);
p1++;
}
}
```
Same reversal here:
```C++
template <unsigned int BITS>
std::string base_blob<BITS>::GetHex() const
{
uint8_t m_data_rev[WIDTH];
for (int i = 0; i < WIDTH; ++i) {
m_data_rev[i] = m_data[WIDTH - 1 - i];
}
return HexStr(m_data_rev);
}
```
It now makes sense to me that `SetHexDeprecated`, upon receiving a shorter hex string that requires zero-padding, would pad as if the missing hex chars where towards the end of the little-endian byte array, as they are the most significant bytes. "Big-endian" string representation is also consistent with the case where `SetHexDeprecated` receives too many hex digits and discards the leftmost ones, as a form of integer narrowing takes place.
### How I got it wrong in #30436
Previously I used the less than (`<`) comparison to prove endianness, but for `uint256` it uses `memcmp` and thereby gives priority to the *lower* bytes at the beginning of the array.
```C++
constexpr int Compare(const base_blob& other) const { return std::memcmp(m_data.data(), other.m_data.data(), WIDTH); }
```
`arith_uint256` is different in that it begins by comparing the bytes from the end, as it is using little endian representation, where the bytes toward the end are more significant.
```C++
template <unsigned int BITS>
int base_uint<BITS>::CompareTo(const base_uint<BITS>& b) const
{
for (int i = WIDTH - 1; i >= 0; i--) {
if (pn[i] < b.pn[i])
return -1;
if (pn[i] > b.pn[i])
return 1;
}
return 0;
}
```
(The commit documents that `base_blob::Compare()` is doing lexicographic ordering unlike the `arith_*`-variant which is doing numeric ordering).
</details>
ACKs for top commit:
paplorinc:
ACK 73e3fa10b4
ryanofsky:
Code review ACK 73e3fa10b4
Tree-SHA512: 121630c37ab01aa7f7097f10322ab37da3cbc0696a6bbdbf2bbd6db180dc5938c7ed91003aaa2df7cf4a4106f973f5118ba541b5e077cf3588aa641bbd528f4e
Follow-up to #30436.
uint256 string representation was wrongfully documented as little-endian due to them being reversed by GetHex() etc, and base_blob::Compare() giving most significance to the beginning of the internal array. They are closer to "big-endian", but this commit tries to be even more precise than that.
uint256_tests.cpp - Avoid using variable from the left side of the condition in the right side.
setup_common.cpp - Skip needless ArithToUint256-conversion.
Sanity check that using CKey/CPubKey directly vs using secp256k1_keypair objects
returns the same results for BIP341 key tweaking.
Co-authored-by: l0rinc <pap.lorinc@gmail.com>
75648cea5a test: add P2A ProduceSignature coverage (Greg Sanders)
7998ce6b20 Add release note for P2A output feature (Greg Sanders)
71c9b02a04 test: add P2A coverage for decodescript (Greg Sanders)
1349e9ec15 test: Add anchor mempool acceptance test (Greg Sanders)
9d89209937 policy: stop 3rd party wtxid malleability of anchor spend (Greg Sanders)
b60aaf8b23 policy: make anchor spend standard (Greg Sanders)
455fca86cf policy: Add OP_1 <0x4e73> as a standard output type (Greg Sanders)
Pull request description:
This is a sub-feature taken out of the original proposal for ephemeral anchors #30239
This PR makes *spending* of `OP_1 <0x4e73>` (i.e. `bc1pfeessrawgf`) standard. Creation of this output type is already standard.
Any future witness output types are considered relay-standard to create, but not to spend. This preserves upgrade hooks, such as a completely new output type for a softfork such as BIP341. It also gives us a bit of room to use a new output type for policy uses.
This particular sized witness program has no other known use-cases (https://bitcoin.stackexchange.com/a/110664/17078), s it affords insufficient cryptographic security for a secure commitment to data, such as a script or a public key. This makes this type of output "keyless", or unauthenticated.
As a witness program, the `scriptSig` of the input MUST be blank, by BIP141. This helps ensure txid-stability of the spending transaction, which may be required for smart contracting wallets. If we do not use segwit, a miner can simply insert an `OP_NOP` in the `scriptSig` without effecting the result of program execution.
An additional relay restriction is to disallow non-empty witness data, which an adversary may use to penalize the "honest" transactor when RBF'ing the transaction due to the incremental fee requirement of RBF rules.
The intended use-case for this output type is to "anchor" the transaction with a spending child to bring exogenous CPFP fees into the transaction package, encouraging the inclusion of the package in a block. The minimal size of creation and spending of this output makes it an attractive contrast to outputs like `p2sh(OP_TRUE)` and `p2wsh(OP_TRUE)` which
are significantly larger in vbyte terms.
Combined with TRUC transactions which limits the size of child transactions significantly, this is an attractive option for presigned transactions that need to be fee-bumped after the fact.
ACKs for top commit:
sdaftuar:
utACK 75648cea5a
theStack:
re-ACK 75648cea5a
ismaelsadeeq:
re-ACK 75648cea5a via [diff](e7ce6dc070..75648cea5a)
glozow:
ACK 75648cea5a
tdb3:
ACK 75648cea5a
Tree-SHA512: d529de23d20857e6cdb40fa611d0446b49989eaafed06c28280e8fd1897f1ed8d89a4eabbec1bbf8df3d319910066c3dbbba5a70a87ff0b2967d5205db32ad1e
f553e6d86f refactor: remove TxidFromString (stickies-v)
285ab50ace test: replace WtxidFromString with Wtxid::FromHex (stickies-v)
9a0b2a69c4 fuzz: increase FromHex() coverage (stickies-v)
526a87ba6b test: add uint256::FromHex unittest coverage (stickies-v)
Pull request description:
Since fab6ddbee6, `TxidFromString()` has been deprecated because it is less robust than the `transaction_identifier::FromHex()` introduced in [the same PR](https://github.com/bitcoin/bitcoin/pull/30482). Specifically, it tries to recover from length-mismatches, recover from untrimmed whitespace, 0x-prefix and garbage at the end, instead of simply requiring exactly 64 hex-only characters.
In this PR, `TxidFromString` is removed completely to clean up the code and prevent further unsafe usage. Unit and fuzz test coverage on `uint256::FromHex()` and functions that wrap it is increased.
Note: `TxidFromSring` allowed users to prefix strings with "0x", this is no longer allowed for `transaction_identifier::FromHex()`, so a helper function for input validation may prove helpful in the future _(this overlaps with the `uint256::uint256S()` vs `uint256::FromHex()` future cleanup)_. It is not relevant to this PR, though, besides the fact that this unused (except for in tests) functionality is removed.
The only users of `TxidFromString` are:
- `test`, where it is straightforward to drop in the new `FromHex()` methods without much further concern
- `qt` coincontrol. There is no need for input validation here, but txids are not guaranteed to be 64 characters. This is already handled by the existing code, so again, using `FromHex()` here seems quite straightforward.
Addresses @maflcko's suggestion: https://github.com/bitcoin/bitcoin/pull/30482#discussion_r1691826934
Also removes `WtxidFromString()`, which is a test-only helper function.
### Testing GUI changes
To test the GUI coincontrol affected lines, `regtest` is probably the easiest way to quickly get some test coins, you can use e.g.
```
alias cli="./src/bitcoin-cli -regtest"
cli createwallet "coincontrol"
# generate 10 spendable outputs on 1 address
cli generatetoaddress 10 $(cli -rpcwallet=coincontrol getnewaddress)
# generate 10 spendable outputs on another address
cli generatetoaddress 10 $(cli -rpcwallet=coincontrol getnewaddress)
# make previous outputs spendable
cli generatetoaddress 100 $(cli -rpcwallet=coincontrol getnewaddress)
```
ACKs for top commit:
maflcko:
re-ACK f553e6d86f🔻
hodlinator:
ACK f553e6d86f
paplorinc:
ACK f553e6d86f
TheCharlatan:
Nice, ACK f553e6d86f
Tree-SHA512: c1c7e6ea4cbf05cf660ba178ffc4f35f0328f7aa6ad81872e2462fb91a6a22e4681ff64b3d0202a5a9abcb650c939561585cd309164a69ab6081c0765ee271ef
These outputs are called anchors, and allow
key-less anchor spends which are vsize-minimized
versus keyed anchors which require larger outputs
when creating and inputs when spending.
b4dd7ab43e logging: use std::string_view (Anthony Towns)
558df5c733 logging: Apply formatting to early log messages (Anthony Towns)
6cf9b34440 logging: Limit early logging buffer (Anthony Towns)
0b1960f1b2 logging: Add DisableLogging() (Anthony Towns)
6bbc2dd6c5 logging: Add thread safety annotations (Anthony Towns)
Pull request description:
In order to cope gracefully with `Log*()` calls that are invoked prior to logging being fully configured (indicated by calling `StartLogging()` we buffer early log messages in `m_msgs_before_open`. This has a couple of minor issues:
* if there are many such log messages the buffer can become arbitrarily large; this can be a problem for users of libkernel that might not wish to worry about logging at all, and as a result never invoke `StartLogging()`
* early log messages are formatted before the formatting options are configured, leading to inconsistent output
Fix those issues by buffering the log info prior to formatting it, and setting a limit on the size of the buffer (dropping the oldest lines, and reporting the number of lines skipped).
Also adds some thread safety annotations, and the ability to invoke `LogInstance().DisableLogging()` if you want to disable logging entirely, for a minor efficiency improvement.
ACKs for top commit:
maflcko:
re-ACK b4dd7ab43e 🕴
ryanofsky:
Code review ACK b4dd7ab43e
TheCharlatan:
Nice, ACK b4dd7ab43e
Tree-SHA512: 966660181276939225a9f776de6ee0665e44577d2ee9cc76b06c8937297217482e6e426bdc5772d1ce533a0ba093a8556b6a50857d4c876ad8923e432a200440
fae0db0360 fuzz: Deglobalize signature cache in sigcache test (TheCharlatan)
Pull request description:
The body of the fuzz test should ideally be a pure function. If data is persisted in the cache over many iterations, and there is a crash, reproducing it from the input might be difficult. Solve this by getting rid of the global state. This is a follow-up from #30425.
ACKs for top commit:
dergoegge:
utACK fae0db0360
ryanofsky:
Code review ACK fae0db0360
Tree-SHA512: 93dcbb9f2497f13856970469042d6870f04de10fe206827a8db1aae7fc8f3ac7fd900bee7945b5fe4c9e33883268dabb15be7e7bc91cf353ffc0d118cd60e97d
It encapsulates a given linearization in chunked form, permitting arbitrary
subsets of transactions to be removed from the linearization. Its purpose
is adding the Intersect function, which is a crucial operation that will
be used in a further commit to make Linearize improve existing linearizations.
This adds a first version of the overall linearization interface, which given
a DepGraph constructs a good linearization, by incrementally including good
candidate sets (found using AncestorCandidateFinder and SearchCandidateFinder).
This introduces a bespoke fuzzing-focused serialization format for DepGraphs,
and then tests that this format can represent any graph, roundtrips, and then
uses that to test the correctness of DepGraph itself.
This forms the basis for future fuzz tests that need to work with interesting
graphs.
f46b220256 fuzz: Use BasicTestingSetup for coins_view target (TheCharlatan)
9e2a723d5d test: Add arguments for creating a slimmer setup (TheCharlatan)
Pull request description:
This adds arguments to some of the testing setup constructors for creating an environment without networking and a validation interface. This is useful for improving the performance of the utxo snapshot fuzz test, which constructs a new TestingSetup on each iteration.
Using this slimmed down `TestingSetup` in future might also make the tests a bit faster when run in aggregate.
ACKs for top commit:
maflcko:
review ACK f46b220256
dergoegge:
utACK f46b220256
Tree-SHA512: 9dc62512b127b781fc9e2d8ef2b5a9b06ebb927a8294b6d872001c553984a7eb1f348e0257b32435b34b5505b5d0323f73bdd572a673da272d3e1e8538ab49d6
