It suffices to initially only attempt one direction of merges in
MakeTopological(), and only try both directions on chunks that are the
result of other merges.
The current process consists of iterating over the transactions of the
chunk one by one, and then for each figuring out which of its
parents/children are in unprocessed chunks.
Simplify this (and speed it up slightly) by splitting this process into
two phases: first determine the union of all parents/children, and then
find which chunks those belong to.
This significantly changes the data structures used in SFL, based on the
observation that the DepData::top_setinfo fields are quite wasteful:
there is one per dependency (up to n^2/4), but we only ever need one per
active dependency (of which there at most n-1). In total, the number of
chunks plus the number of active dependencies is always exactly equal to
the number of transactions, so it makes sense to have a shared pool of
SetInfos, which are used for both chunks and top sets.
To that effect, introduce a separate m_set_info variable, which stores a
SetInfo per transaction. Some of these are used for chunk sets, and some
for active dependencies' top sets. Every activation transforms the
parent's chunk into the top set for the new dependency. Every
deactivation transforms the top set into the new parent chunk.
With indexes into m_set_data (SetIdx) becoming bounded by the number of
transactions, we can use a SetType to represent sets of SetIdxs.
Specifically, an m_chunk_idxs is added which contains all SetIdx
referring to chunks. This leads to a much more natural way of iterating
over chunks.
Also use this opportunity to normalize many variable names.
This splits the chunk_deps variable in LoadLinearization in two, one for
tracking tx dependencies and one for chunk dependencies. This is a
preparation for a later commit, where chunks won't be identified anymore
by a representative transaction in them, but by a separate index. With
that, it seems weird to keep them both in the same structure if they
will be indexed in an unrelated way.
Note that the changes in src/test/util/cluster_linearize.h to the table
of worst observed iteration counts are due to switching to a different
data set, and are unrelated to the changes in this commit.
2cb7e99deee1017a6edd94d82de556895138361d test: also reset CConnman::m_private_broadcast in tests (Vasil Dimov)
91b7c874e2b1479ed29f067cd1bef7724aabd951 test: add ConnmanTestMsg convenience method Reset() (Vasil Dimov)
Pull request description:
Member variables of `CConnman::m_private_broadcast` (introduced in
https://github.com/bitcoin/bitcoin/pull/29415) could influence the tests
which creates non-determinism if the same instance of `CConnman` is used
for repeated test iterations.
So, reset the state of `CConnman::m_private_broadcast` from
`ConnmanTestMsg::Reset()`. Currently this affects the fuzz tests
`process_message` and `process_messages`.
Reported in https://github.com/bitcoin/bitcoin/issues/34476#issuecomment-3849088794
ACKs for top commit:
maflcko:
review ACK 2cb7e99deee1017a6edd94d82de556895138361d 🚙
Crypt-iQ:
tACK 2cb7e99deee1017a6edd94d82de556895138361d
frankomosh:
Code Review ACK 2cb7e99deee1017a6edd94d82de556895138361d
brunoerg:
code review ACK 2cb7e99deee1017a6edd94d82de556895138361d
Tree-SHA512: 0f4b114542da8dc611689457ce67034c15cbfe409b006b2db72bc74078ee9513f5ce3d0e6e67d37c127cfa0a5170fe72fe3ea45ce2a61d45a358dd11bd1881f8
Instead of returning a TxGraph::Ref from TxGraph::AddTransaction(),
pass in a TxGraph::Ref& which is updated to refer to the new transaction
in that graph.
This cleans up the usage somewhat, avoiding the need for dummy Refs in
CTxMemPoolEntry constructor calls, but the motivation is that a future
commit will allow a callback to passed to MakeTxGraph to define a
fallback order on the transaction objects. This does not work when a
Ref is created separately from the CTxMemPoolEntry it ends up living in,
as passing the newly-created Ref to the callback would be UB before it's
emplaced in its final CTxMemPoolEntry.
fa43897c1d14549e7af0d9f912e765875b634c39 doc: Fix LLM nits in net_processing.cpp (MarcoFalke)
bbbba0fd4b87a5441c90d513d2022f4c4d9678cb scripted-diff: Use references when nullptr is not possible (MarcoFalke)
fac54154660438db6a601584fa91f87bc09395b2 refactor: Separate peer/maybe_peer in ProcessMessages and SendMessages (MarcoFalke)
fac529188e0db44875f8728c9e0b6a05d2145e75 refactor: Pass Peer& to ProcessMessage (MarcoFalke)
fa376095a01c421523ec5d012c6aafb006011788 refactor: Pass CNode& to ProcessMessages and SendMessages (MarcoFalke)
fada8380148c1266f2cc1ddb0f65f42651c82a62 refactor: Make ProcessMessage private again (MarcoFalke)
fa80cd3ceed4eb58732c2f6f748277772a8a1c36 test: [refactor] Avoid calling private ProcessMessage() function (MarcoFalke)
Pull request description:
There is a single unit test, which calls the internal `ProcessMessage` function. This is problematic, because it makes future changes harder, since they will need to carry over this public internal interface each time.
Also, there is a mixed use of pointers and references in p2p code, where just based on context, a pointer may sometimes assumed to be null, or non-null. This is confusing when reading the code, or making or reading future changes.
Fix both issues in a series of commits, to:
* refactor the single unit test to call higher-level functions
* Make `ProcessMessage` private again
* Use references instead of implicit non-null pointers, mostly in a scripted-diff
ACKs for top commit:
optout21:
reACK fa43897c1d14549e7af0d9f912e765875b634c39
ajtowns:
ACK fa43897c1d14549e7af0d9f912e765875b634c39
Crypt-iQ:
crACK fa43897c1d14549e7af0d9f912e765875b634c39
achow101:
ACK fa43897c1d14549e7af0d9f912e765875b634c39
Tree-SHA512: d03d8ea35490a995f121be3d2f3e4a22d1aadfeab30bc42c4f8383dab0e6e27046260e792d9e5a94faa6777490ba036e39c71c50611a38f70b90e3a01f002c9e
Member variables of `CConnman::m_private_broadcast` (introduced in
https://github.com/bitcoin/bitcoin/pull/29415) could influence the tests
which creates non-determinism if the same instance of `CConnman` is used
for repeated test iterations.
So, reset the state of `CConnman::m_private_broadcast` from
`ConnmanTestMsg::Reset()`. Currently this affects the fuzz tests
`process_message` and `process_messages`.
Reported in
https://github.com/bitcoin/bitcoin/issues/34476#issuecomment-3849088794
d511adb664edcfb97be44bc0738f49b679240504 [miner] omit dummy extraNonce via IPC (Sjors Provoost)
bf3b5d6d069a0bbb39af0c487fd597257f862f31 test: clarify getCoinbaseRawTx() comparison (Sjors Provoost)
78df9003d63414e4a17b686af7647aeefd706ec5 [doc] Update comments on dummy extraNonces in tests (Anthony Towns)
Pull request description:
This PR changes the Mining IPC interface to stop including a dummy `extraNonce` in the coinbase `scriptSig` by default, exposing only the consensus-required BIP34 height. This simplifies downstream mining software (including Stratum v2), avoids forcing clients to strip or ignore data we generate, and reduces the risk of incompatibilities if future soft forks add required commitments to the `scriptSig`.
Existing behavior is preserved for RPCs, tests, regtest, and internal mining by explicitly opting in to the dummy `extraNonce` where needed (e.g. to satisfy `bad-cb-length` at low heights), so consensus rules and test coverage are unchanged. The remainder of the PR consists of small comment fixes, naming clarifications, and test cleanups to make the intent and behavior clearer.
ACKs for top commit:
achow101:
ACK d511adb664edcfb97be44bc0738f49b679240504
ryanofsky:
Code review ACK d511adb664edcfb97be44bc0738f49b679240504. Just rebased since last review and make suggested tweaks. I'd really like to see this PR merged for the cleanups and sanity it brings to this code. Needs another reviewer though.
sedited:
ACK d511adb664edcfb97be44bc0738f49b679240504
Tree-SHA512: d41fa813eb6b5626f4f475d8abc506b29090f4a2d218f2d6824db58b5ebe2ed7c584a903b44de18ccec142bb79c257b0aba6d6da073f56175aec88df96aaaaba
4fec726c4d352daf2fb4a7e5ed463e44c8815ddb refactor: Simplify Interpret asmap function (Fabian Jahr)
79e97d45c16f043d23ba318a661cc39ec53cf760 doc: Add more extensive docs to asmap implementation (Fabian Jahr)
cf4943fdcdd167a56c278ba094cecb0fa241a8f8 refactor: Use span instead of vector for data in util/asmap (Fabian Jahr)
385c34a05261846dac2b42d47f69b317f534dd40 refactor: Unify asmap version calculation and naming (Fabian Jahr)
fa41fc6a1a7d492b894e206f83e0c9786b44a2f0 refactor: Operate on bytes instead of bits in Asmap code (Fabian Jahr)
Pull request description:
This is a second slice carved out of #28792. It contains the following changes that are crucial for the embedding of asmap data which is added the following PR in the series (probably this will remain in #28792).
The changes are:
- Modernizes and simplifies the asmap code by operating on `std::byte` instead of bits
- Unifies asmap version calculation and naming (previously it was called version and checksum interchangeably)
- Operate on a `span` rather than a vector in the asmap internal to prevent holding the asmap data in memory twice
- Add more extensive documentation to the asmap implementation
- Unify asmap casing in implemetation function names
The first three commits were already part of #28792, the others are new.
The documentation commit came out of feedback gathered at the latest CoreDev. The primary input for the documentation was the documentation that already existed in the Python implementation (`contrib/asmap/asmap.py`) but there are several other comments as well. Please note: I have also asked several LLMs to provide suggestions on how to explain pieces of the implementation and better demonstrate how the parts work together. I have copied bits and pieces that I liked but everything has been edited further by me and obviously all mistakes here are my own.
ACKs for top commit:
hodlinator:
re-ACK 4fec726c4d352daf2fb4a7e5ed463e44c8815ddb
sipa:
ACK 4fec726c4d352daf2fb4a7e5ed463e44c8815ddb
sedited:
Re-ACK 4fec726c4d352daf2fb4a7e5ed463e44c8815ddb
Tree-SHA512: 950a591c3fcc9ddb28fcfdc3164ad3fbd325fa5004533c4a8b670fbf8b956060a0daeedd1fc2fced1f761ac49cd992b79cabe12ef46bc60b2559a7a613d0e166
facb2aab26dffbc1e46809ac776ed43b9eaa9ad4 test: Turn ElapseSteady into SteadyClockContext (MarcoFalke)
Pull request description:
`ElapseSteady` was introduced a while back, but is only used in one place. It makes more sense if this were a context manager, so that mocktime does not leak from one test into the next.
So turn it into a context manager, rename it and allow easy time advancement via e.g. `steady_ctx += 1h`.
ACKs for top commit:
l0rinc:
ACK facb2aab26dffbc1e46809ac776ed43b9eaa9ad4
ismaelsadeeq:
utACK facb2aab26dffbc1e46809ac776ed43b9eaa9ad4
sedited:
ACK facb2aab26dffbc1e46809ac776ed43b9eaa9ad4
Tree-SHA512: 1df9cc9685d9be4d3ab8deafd99ac1a5ff752064ae54b83bacd6f44ba2c198b091558a306d49d8b1e2200ac669e95915cc792d589fb3a63b2bef7891d325a1e0
Use the AFL++ shared memory ID environment variable to create
a deterministic datadir path. This prevents accumulation of stale
directories after a fuzz iteration crashes or times out. During
long fuzz campaigns, this accumulation has occasionally resulted
in running out of disk space.
Previously the coinbase transaction generated by our miner code was
not used downstream, because the getblocktemplate RPC excludes it.
Since the Mining IPC interface was introduced in #30200 we do expose
this dummy coinbase transaction. In Stratum v2 several parts of it
are communicated downstream, including the scriptSig.
This commit removes the dummy extraNonce from the coinbase scriptSig
in block templates requested via IPC. This limits the scriptSig
to what is essential for consensus (BIP34) and removes the need for
external mining software to remove the dummy, or even ignore
the scriptSig we provide and generate it some other way. This
could cause problems if a future soft fork requires additional
data to be committed here.
A test is added to verify the new IPC behavior.
It achieves this by introducing an include_dummy_extranonce
option which defaults to false with all test code updated to
set it to true. Because this option is not exposed via IPC,
callers will no longer see it.
The caller needs to ensure that for blocks 1 through 16
they pad the scriptSig in order to avoid bad-cb-length.
Co-authored-by: Anthony Towns <aj@erisian.com.au>
This prevents holding the asmap data in memory twice.
The version hash changes due to spans being serialized without their size-prefix (unlike vectors).
fabf8d1c5bdb6a944762792cdc762caa6c1a760b fuzz: Restore SendMessages coverage in process_message(s) fuzz targets (MarcoFalke)
fac7fed397f0fa3924600c1806a46d235a62ee5f refactor: Use std::reference_wrapper<AddrMan> in Connman (MarcoFalke)
Pull request description:
*Found and reported by Crypt-iQ (thanks!)*
Currently the process_message(s) fuzz targets do not have any meaningful `SendMessages` code coverage. This is not ideal.
Fix the problem by adding back the coverage, and by hardening the code here, so that the problem hopefully does not happen again in the future.
### Historic context for this regression
The regression was introduced in commit fa11eea4059a608f591db4469c07a341fd33a031, which built a new deterministic peerman object. However, the patch was incomplete, because it was missing one hunk to replace `g_setup->m_node.peerman->SendMessages(&p2p_node);` with `peerman->SendMessages(&p2p_node);`.
This means the stale and empty peerman from the node context and not the freshly created and deterministic peerman was used.
A simple fix would be to just submit the missing patch hunk. However, this still leaves the risk that the issue is re-introduced at any time in the future. So instead, I think the stale and empty peerman should be de-constructed, so that any call to it will lead to a hard sanitizer error and fuzz failure.
Doing that also uncovered another issue: The connman was holding on to a reference to a stale and empty addrman.
So fix all issues by:
* Allowing the addrman reference in connman to be re-seatable
* Clearing all stale objects, before creating new objects, and then using references to the new objects in all code
ACKs for top commit:
Crypt-iQ:
crACK fabf8d1c5bdb6a944762792cdc762caa6c1a760b
frankomosh:
ACK fabf8d1c5bdb6a944762792cdc762caa6c1a760b
marcofleon:
code review ACK fabf8d1c5bdb6a944762792cdc762caa6c1a760b
sedited:
ACK fabf8d1c5bdb6a944762792cdc762caa6c1a760b
Tree-SHA512: 2e478102b3e928dc7505f00c08d4b9e4f8368407b100bc88f3eb3b82aa6fea5a45bae736c211f5af1551ca0de1a5ffd4a5d196d9473d4c3b87cfed57c9a0b69d
fa64d8424b8de49e219bffb842a33d484fb03212 refactor: Enforce readability-avoid-const-params-in-decls (MarcoFalke)
faf0c2d942c8de7868a3fd3afc7fc9ea700c91d4 refactor: Avoid copies by using const references or by move-construction (MarcoFalke)
Pull request description:
Top level `const` in declarations is problematic for many reasons:
* It is often a typo, where one wanted to denote a const reference. For example `bool PSBTInputSignedAndVerified(const PartiallySignedTransaction psbt, ...` is missing the `&`. This will create a redundant copy of the value.
* In constructors it prevents move construction.
* It can incorrectly imply some data is const, like in an imaginary example `std::span<int> Shuffle(const std::span<int>);`, where the `int`s are *not* const.
* The compiler ignores the `const` from the declaration in the implementation.
* It isn't used consistently anyway, not even on the same line.
Fix some issues by:
* Using a const reference to avoid a copy, where read-only of the value is intended. This is only done for values that may be expensive to copy.
* Using move-construction to avoid a copy
* Applying `readability-avoid-const-params-in-decls` via clang-tidy
ACKs for top commit:
l0rinc:
diff reACK fa64d8424b8de49e219bffb842a33d484fb03212
hebasto:
ACK fa64d8424b8de49e219bffb842a33d484fb03212, I have reviewed the code and it looks OK.
sedited:
ACK fa64d8424b8de49e219bffb842a33d484fb03212
Tree-SHA512: 293c000b4ebf8fdcc75259eb0283a2e4e7892c73facfb5c3182464d6cb6a868b7f4a6682d664426bf2edecd665cf839d790bef0bae43a8c3bf1ddfdd3d068d38
da56ef239b12786e3a177afda14352dda4a70bc6 clusterlin: minimize chunks (feature) (Pieter Wuille)
Pull request description:
Part of #30289.
This was split off from #34023, because it's not really an optimization but a feature. The feature existed pre-SFL, so this brings SFL to parity in terms of functionality with the old code.
The idea is that while optimality - as achieved by SFL before this PR - guarantees a linearization whose feerate diagram is optimal, it may be possible to split chunks into smaller equal-feerate parts. This is desirable because even though it doesn't change the diagram, it provides more flexibility for optimization (binpacking is easier when the pieces are smaller).
Thus, this PR introduces the stronger notion of "minimality": optimal chunks, which are also split into their smallest possible pieces. To accomplish that, an additional step in the SFL algorithm is added which aims to split chunks into minimal equal-feerate parts where possible, without introducing circular dependencies between them. It works based on the observation that if an (already otherwise optimal) chunk has a way of being split into two equal-feerate parts, and T is a given transaction in the chunk, then we can find the split in two steps:
* One time, pretend T has $\epsilon$ higher feerate than it really has. If a split exists with T in the top part, this will find it.
* The other time, pretend T has $\epsilon$ lower feerate than it really has. If a split exists with T in the bottom part, this will find it.
So we try both on each found optimal chunk. If neither works, the chunk is minimal. If one works, recurse into the split chunks to split them further.
ACKs for top commit:
instagibbs:
reACK da56ef239b
marcofleon:
crACK da56ef239b12786e3a177afda14352dda4a70bc6
Tree-SHA512: 2e94d6b78725f5f9470a939dedef46450b85c4e5e6f30cba0b038622ec2b417380747e8df923d1f303706602ab6d834350716df9678de144f857e3a8d163f6c2
After the normal optimization process finishes, and finds an optimal
spanning forest, run a second process (while computation budget remains)
to split chunks into minimal equal-feerate chunks.
89372213048adf37a47427112a1ff836ee84c50e doc: add release notes for 29415 (Vasil Dimov)
582016fa5f013817db650bbba0a40d9195c18e2e test: add unit test for the private broadcast storage (Vasil Dimov)
e74d54e04896a86cad4e4b1bd9641afcc3a026c2 test: add functional test for private broadcast (Vasil Dimov)
818b780a05db126dcfe7efe12c46c84b5cfc3de6 rpc: use private broadcast from sendrawtransaction RPC if -privatebroadcast is ON (Vasil Dimov)
eab595f9cf13f7cb1d25a0db51409535cfe053b1 net_processing: retry private broadcast (Vasil Dimov)
37b79f9c39db5a4a61d360a6a29c8853bb5c7ac0 net_processing: stop private broadcast of a transaction after round-trip (Vasil Dimov)
2de53eee742da11b0e3f6fc44c39f2b5b5929da1 net_processing: handle ConnectionType::PRIVATE_BROADCAST connections (Vasil Dimov)
30a9853ad35365af8545e8e766d75cf398968480 net_processing: move a debug check in VERACK processing earlier (Vasil Dimov)
d1092e5d48ce67bd517068550c78bfcab062a554 net_processing: modernize PushNodeVersion() (Vasil Dimov)
9937a12a2fd5a0033f37f4dda5d75bfc5f15c3b6 net_processing: move the debug log about receiving VERSION earlier (Vasil Dimov)
a098f37b9e240291077a7f440e9f57e61f30e158 net_processing: reorder the code that handles the VERSION message (Vasil Dimov)
679ce3a0b8df6e8cab07965301382d2036ef2368 net_processing: store transactions for private broadcast in PeerManager (Vasil Dimov)
a3faa6f944a672faccac5dd201c8d33a638d9091 node: extend node::TxBroadcast with a 3rd option (Vasil Dimov)
95c051e21051bd469fda659fe7c495d5e264d221 net_processing: rename RelayTransaction() to better describe what it does (Vasil Dimov)
bb49d26032c57714c62a4b31ff1fdd969751683f net: implement opening PRIVATE_BROADCAST connections (Vasil Dimov)
01dad4efe2b38b7a71c96b6222147f395e0c11d9 net: introduce a new connection type for private broadcast (Vasil Dimov)
94aaa5d31b6ff1d0122319fc70e70a7e27e1a0ba init: introduce a new option to enable/disable private broadcast (Vasil Dimov)
d6ee490e0a9a81b69a4751087918303163ba8869 log: introduce a new category for private broadcast (Vasil Dimov)
Pull request description:
_Parts of this PR are isolated in independent smaller PRs to ease review:_
* [x] _https://github.com/bitcoin/bitcoin/pull/29420_
* [x] _https://github.com/bitcoin/bitcoin/pull/33454_
* [x] _https://github.com/bitcoin/bitcoin/pull/33567_
* [x] _https://github.com/bitcoin/bitcoin/pull/33793_
---
To improve privacy, broadcast locally submitted transactions (from the `sendrawtransaction` RPC) to the P2P network only via Tor or I2P short-lived connections, or to IPv4/IPv6 peers but through the Tor network.
* Introduce a new connection type for private broadcast of transactions with the following properties:
* started whenever there are local transactions to be sent
* opened to Tor or I2P peers or IPv4/IPv6 via the Tor proxy
* opened regardless of max connections limits
* after handshake is completed one local transaction is pushed to the peer, `PING` is sent and after receiving `PONG` the connection is closed
* ignore all incoming messages after handshake is completed (except `PONG`)
* Broadcast transactions submitted via `sendrawtransaction` using this new mechanism, to a few peers. Keep doing this until we receive back this transaction from one of our ordinary peers (this takes about 1 second on mainnet).
* The transaction is stored in peerman and does not enter the mempool.
* Once we get an `INV` from one of our ordinary peers, then the normal flow executes: we request the transaction with `GETDATA`, receive it with a `TX` message, put it in our mempool and broadcast it to all our existent connections (as if we see it for the first time).
* After we receive the full transaction as a `TX` message, in reply to our `GETDATA` request, only then consider the transaction has propagated through the network and remove it from the storage in peerman, ending the private broadcast attempts.
The messages exchange should look like this:
```
tx-sender >--- connect -------> tx-recipient
tx-sender >--- VERSION -------> tx-recipient (dummy VERSION with no revealing data)
tx-sender <--- VERSION -------< tx-recipient
tx-sender <--- WTXIDRELAY ----< tx-recipient (maybe)
tx-sender <--- SENDADDRV2 ----< tx-recipient (maybe)
tx-sender <--- SENDTXRCNCL ---< tx-recipient (maybe)
tx-sender <--- VERACK --------< tx-recipient
tx-sender >--- VERACK --------> tx-recipient
tx-sender >--- INV/TX --------> tx-recipient
tx-sender <--- GETDATA/TX ----< tx-recipient
tx-sender >--- TX ------------> tx-recipient
tx-sender >--- PING ----------> tx-recipient
tx-sender <--- PONG ----------< tx-recipient
tx-sender disconnects
```
Whenever a new transaction is received from `sendrawtransaction` RPC, the node will send it to a few (`NUM_PRIVATE_BROADCAST_PER_TX`) recipients right away. If after some time we still have not heard anything about the transaction from the network, then it will be sent to 1 more peer (see `PeerManagerImpl::ReattemptPrivateBroadcast()`).
A few considerations:
* The short-lived private broadcast connections are very cheap and fast wrt network traffic. It is expected that some of those peers could blackhole the transaction. Just one honest/proper peer is enough for successful propagation.
* The peers that receive the transaction could deduce that this is initial transaction broadcast from the transaction originator. This is ok, they can't identify the sender.
---
<details>
<summary>How to test this?</summary>
Thank you, @stratospher and @andrewtoth!
Start `bitcoind` with `-privatebroadcast=1 -debug=privatebroadcast`.
Create a wallet and get a new address, go to the Signet faucet and request some coins to that address:
```bash
build/bin/bitcoin-cli -chain="signet" createwallet test
build/bin/bitcoin-cli -chain="signet" getnewaddress
```
Get a new address for the test transaction recipient:
```bash
build/bin/bitcoin-cli -chain="signet" loadwallet test
new_address=$(build/bin/bitcoin-cli -chain="signet" getnewaddress)
```
Create the transaction:
```bash
# Option 1: `createrawtransaction` and `signrawtransactionwithwallet`:
txid=$(build/bin/bitcoin-cli -chain="signet" listunspent | jq -r '.[0] | .txid')
vout=$(build/bin/bitcoin-cli -chain="signet" listunspent | jq -r '.[0] | .vout')
echo "txid: $txid"
echo "vout: $vout"
tx=$(build/bin/bitcoin-cli -chain="signet" createrawtransaction "[{\"txid\": \"$txid\", \"vout\": $vout}]" "[{\"$new_address\": 0.00001000}]" 0 false)
echo "tx: $tx"
signed_tx=$(build/bin/bitcoin-cli -chain="signet" signrawtransactionwithwallet "$tx" | jq -r '.hex')
echo "signed_tx: $signed_tx"
# OR Option 2: `walletcreatefundedpsbt` and `walletprocesspsbt`:
# This makes it not have to worry about inputs and also automatically sends back change to the wallet.
# Start `bitcoind` with `-fallbackfee=0.00003000` for instance for 3 sat/vbyte fee.
psbt=$(build/bin/bitcoin-cli -chain="signet" walletcreatefundedpsbt "[]" "[{\"$new_address\": 0.00001000}]" | jq -r '.psbt')
echo "psbt: $psbt"
signed_tx=$(build/bin/bitcoin-cli -chain="signet" walletprocesspsbt "$psbt" | jq -r '.hex')
echo "signed_tx: $signed_tx"
```
Finally, send the transaction:
```bash
raw_tx=$(build/bin/bitcoin-cli -chain="signet" sendrawtransaction "$signed_tx")
echo "raw_tx: $raw_tx"
```
</details>
---
<details>
<summary>High-level explanation of the commits</summary>
* New logging category and config option to enable private broadcast
* `log: introduce a new category for private broadcast`
* `init: introduce a new option to enable/disable private broadcast`
* Implement the private broadcast connection handling on the `CConnman` side:
* `net: introduce a new connection type for private broadcast`
* `net: implement opening PRIVATE_BROADCAST connections`
* Prepare `BroadcastTransaction()` for private broadcast requests:
* `net_processing: rename RelayTransaction to better describe what it does`
* `node: extend node::TxBroadcast with a 3rd option`
* `net_processing: store transactions for private broadcast in PeerManager`
* Implement the private broadcast connection handling on the `PeerManager` side:
* `net_processing: reorder the code that handles the VERSION message`
* `net_processing: move the debug log about receiving VERSION earlier`
* `net_processing: modernize PushNodeVersion()`
* `net_processing: move a debug check in VERACK processing earlier`
* `net_processing: handle ConnectionType::PRIVATE_BROADCAST connections`
* `net_processing: stop private broadcast of a transaction after round-trip`
* `net_processing: retry private broadcast`
* Engage the new functionality from `sendrawtransaction`:
* `rpc: use private broadcast from sendrawtransaction RPC if -privatebroadcast is ON`
* New tests:
* `test: add functional test for private broadcast`
* `test: add unit test for the private broadcast storage`
</details>
---
**This PR would resolve the following issues:**
https://github.com/bitcoin/bitcoin/issues/3828 Clients leak IPs if they are recipients of a transaction
https://github.com/bitcoin/bitcoin/issues/14692 Can't configure bitocoind to only send tx via Tor but receive clearnet transactions
https://github.com/bitcoin/bitcoin/issues/19042 Tor-only transaction broadcast onlynet=onion alternative
https://github.com/bitcoin/bitcoin/issues/24557 Option for receive events with all networks, but send transactions and/or blocks only with anonymous network[s]?
https://github.com/bitcoin/bitcoin/issues/25450 Ability to broadcast wallet transactions only via dedicated oneshot Tor connections
https://github.com/bitcoin/bitcoin/issues/32235 Tor: TX circuit isolation
**Issues that are related, but (maybe?) not to be resolved by this PR:**
https://github.com/bitcoin/bitcoin/issues/21876 Broadcast a transaction to specific nodes
https://github.com/bitcoin/bitcoin/issues/28636 new RPC: sendrawtransactiontopeer
---
Further extensions:
* Have the wallet do the private broadcast as well, https://github.com/bitcoin/bitcoin/issues/11887 would have to be resolved.
* Have the `submitpackage` RPC do the private broadcast as well, [draft diff in the comment below](https://github.com/bitcoin/bitcoin/pull/29415#pullrequestreview-2972293733), thanks ismaelsadeeq!
* Add some stats via RPC, so that the user can better monitor what is going on during and after the broadcast. Currently this can be done via the debug log, but that is not convenient.
* Make the private broadcast storage, currently in peerman, persistent over node restarts.
* Add (optional) random delay before starting to broadcast the transaction in order to avoid correlating unrelated transactions based on the time when they were broadcast. Suggested independently of this PR [here](https://github.com/bitcoin/bitcoin/issues/30471).
* Consider periodically sending transactions that did not originate from the node as decoy, discussed [here](https://github.com/bitcoin/bitcoin/pull/29415#discussion_r2035414972).
* Consider waiting for peer's FEEFILTER message and if the transaction that was sent to the peer is below that threshold, then assume the peer is going to drop it. Then use this knowledge to retry more aggressively with another peer, instead of the current 10 min. See [comment below](https://github.com/bitcoin/bitcoin/pull/29415#issuecomment-3258611648).
* It may make sense to be able to override the default policy -- eg so submitrawtransaction can go straight to the mempool and relay, even if txs are normally privately relayed. See [comment below](https://github.com/bitcoin/bitcoin/pull/29415#issuecomment-3427086681).
* As a side effect we have a new metric available - the time it takes for a transaction to reach a random node in the network (from the point of view of the private broadcast recipient the tx originator is a random node somewhere in the network). This can be useful for monitoring, unrelated to privacy characteristics of this feature.
---
_A previous incarnation of this can be found at https://github.com/bitcoin/bitcoin/pull/27509. It puts the transaction in the mempool and (tries to) hide it from the outside observers. This turned out to be too error prone or maybe even impossible._
ACKs for top commit:
l0rinc:
code review diff ACK 89372213048adf37a47427112a1ff836ee84c50e
andrewtoth:
ACK 89372213048adf37a47427112a1ff836ee84c50e
pinheadmz:
ACK 89372213048adf37a47427112a1ff836ee84c50e
w0xlt:
ACK 8937221304 with nit https://github.com/bitcoin/bitcoin/pull/29415#discussion_r2654849875
mzumsande:
re-ACK 89372213048adf37a47427112a1ff836ee84c50e
Tree-SHA512: d51dadc865c2eb080c903cbe2f669e69a967e5f9fc64e9a20a68f39a67bf0db6ac2ad682af7fa24ef9f0942a41c89959341a16ba7b616475e1c5ab8e563b9b96
Rename and invert the internal IBD latch so the cached value directly matches `IsInitialBlockDownload()` (true while in IBD, then latched to false).
This is a behavior-preserving refactor to avoid double negatives.
fa4cb13b52030c2e55c6bea170649ab69d75f758 test: [doc] Manually unify stale headers (MarcoFalke)
fa5f29774872d18febc0df38831a6e45f3de69cc scripted-diff: [doc] Unify stale copyright headers (MarcoFalke)
Pull request description:
Historically, the upper year range in file headers was bumped manually
or with a script.
This has many issues:
* The script is causing churn. See for example commit 306ccd4, or
drive-by first-time contributions bumping them one-by-one. (A few from
this year: https://github.com/bitcoin/bitcoin/pull/32008,
https://github.com/bitcoin/bitcoin/pull/31642,
https://github.com/bitcoin/bitcoin/pull/32963, ...)
* Some, or likely most, upper year values were wrong. Reasons for
incorrect dates could be code moves, cherry-picks, or simply bugs in
the script.
* The upper range is not needed for anything.
* Anyone who wants to find the initial file creation date, or file
history, can use `git log` or `git blame` to get more accurate
results.
* Many places are already using the `-present` suffix, with the meaning
that the upper range is omitted.
To fix all issues, this bumps the upper range of the copyright headers
to `-present`.
Further notes:
* Obviously, the yearly 4-line bump commit for the build system (c.f.
b537a2c02a9921235d1ecf8c3c7dc1836ec68131) is fine and will remain.
* For new code, the date range can be fully omitted, as it is done
already by some developers. Obviously, developers are free to pick
whatever style they want. One can list the commits for each style.
* For example, to list all commits that use `-present`:
`git log --format='%an (%ae) [%h: %s]' -S 'present The Bitcoin'`.
* Alternatively, to list all commits that use no range at all:
`git log --format='%an (%ae) [%h: %s]' -S '(c) The Bitcoin'`.
<!--
* The lower range can be wrong as well, so it could be omitted as well,
but this is left for a follow-up. A previous attempt was in
https://github.com/bitcoin/bitcoin/pull/26817.
ACKs for top commit:
l0rinc:
ACK fa4cb13b52030c2e55c6bea170649ab69d75f758
rkrux:
re-ACK fa4cb13b52030c2e55c6bea170649ab69d75f758
janb84:
ACK fa4cb13b52030c2e55c6bea170649ab69d75f758
Tree-SHA512: e5132781bdc4417d1e2922809b27ef4cf0abb37ffb68c65aab8a5391d3c917b61a18928ec2ec2c75ef5184cb79a5b8c8290d63e949220dbeab3bd2c0dfbdc4c5
This introduces a local RNG inside the SFL state, which is used to randomize
various decisions inside the algorithm, in order to make it hard to create
pathological clusters which predictably have bad performance.
The decisions being randomized are:
* When deciding what chunk to attempt to split, the queue order is
randomized.
* When deciding which dependency to split on, a uniformly random one is
chosen among those with higher top feerate than bottom feerate within
the chosen chunk.
* When deciding which chunks to merge, a uniformly random one among those
with the higher feerate difference is picked.
* When merging two chunks, a uniformly random dependency between them is
now activated.
* When making the state topological, the queue of chunks to process is
randomized.
This introduces a queue of chunks that still need processing, in both
MakeTopological() and OptimizationStep(). This is simultaneously:
* A preparation for introducing randomization, by allowing permuting the
queue.
* An improvement to the fairness of suboptimal solutions, by distributing
the work more fairly over chunks.
* An optimization, by avoiding retrying chunks over and over again which
are already known to be optimal.
This replaces the existing LIMO linearization algorithm (which internally uses
ancestor set finding and candidate set finding) with the much more performant
spanning-forest linearization algorithm.
This removes the old candidate-set search algorithm, and several of its tests,
benchmarks, and needed utility code.
The worst case time per cost is similar to the previous algorithm, so
ACCEPTABLE_ITERS is unchanged.
db2d39f642979f929261e5f1cd67f0c2f2ca045f fuzz: add subtest for re-downloading a previously pruned block (Eugene Siegel)
45f5b2dac330906368352a1c585183f0d75d779d fuzz: Add fuzzer for block index (Martin Zumsande)
c011e3aa542631a8857039df796ebf13a653e8a6 test: Wrap validation functions with TestChainstateManager (Martin Zumsande)
Pull request description:
This adds a fuzz target for the block index and various events in validation that interact with it.
It can create arbitrary tree-like structure of block indexes, simulating (so far) the following events:
- Adding a header
- Receiving the full block (may be valid or not)
- `ActivateBestChain()` - Reorging the chain to a new chain tip (possibly encountering invalid blocks on the way)
- Pruning a block in the best chain
- Receiving a previously pruned block again (`getblockfrompeer`)
It might be interesting / possible to extend this to more events, such as dealing with more than one chainstate (assumeutxo).
The test skips all actual validation of header/ block / transaction data by just simulating the outcome, and also doesn't interact with the data directory.
The main goal is to ensure the integrity of the block index tree in all fuzzed constellations, by calling `CheckBlockIndex()` at the end of each iteration.
Compared to #29158 this approach has a more limited scope (by skipping all actual validation), but it is fast - it doesn't do a full init sequence on each iteration, but "cleans up" after itself by resetting the global validation state after each iteration.
ACKs for top commit:
Crypt-iQ:
reACK db2d39f642
maflcko:
review ACK db2d39f642979f929261e5f1cd67f0c2f2ca045f 🍶
sedited:
Re-ACK db2d39f642979f929261e5f1cd67f0c2f2ca045f
Tree-SHA512: 76cd5f8f4d7d7258620b46d7438bad4508c3bdc98825b48b60f694b5a9838e2b2cf4967c0ead181f86f66f4939ddfe552471851b9d18f84f584c03dd7e09fc43
d9319b06cf82664d55f255387a348135fd7f91c7 refactor: unify container presence checks - non-trivial counts (Lőrinc)
039307554eb311ce41648d1f9a12b543f480f871 refactor: unify container presence checks - trivial counts (Lőrinc)
8bb9219b6301215f53e43967d17445aaf1b81090 refactor: unify container presence checks - find (Lőrinc)
Pull request description:
### Summary
Instead of counting occurrences in sets and maps, the C++20 `::contains` method expresses the intent unambiguously and can return early on first encounter.
### Context
Applied clang‑tidy's [readability‑container‑contains](https://clang.llvm.org/extra/clang-tidy/checks/readability/container-contains.html) check, though many cases required manual changes since tidy couldn't fix them automatically.
### Changes
The changes made here were:
| From | To |
|------------------------|------------------|
| `m.find(k) == m.end()` | `!m.contains(k)` |
| `m.find(k) != m.end()` | `m.contains(k)` |
| `m.count(k)` | `m.contains(k)` |
| `!m.count(k)` | `!m.contains(k)` |
| `m.count(k) == 0` | `!m.contains(k)` |
| `m.count(k) != 1` | `!m.contains(k)` |
| `m.count(k) == 1` | `m.contains(k)` |
| `m.count(k) < 1` | `!m.contains(k)` |
| `m.count(k) > 0` | `m.contains(k)` |
| `m.count(k) != 0` | `m.contains(k)` |
> Note that `== 1`/`!= 1`/`< 1` only apply to simple [maps](https://en.cppreference.com/w/cpp/container/map/contains)/[sets](https://en.cppreference.com/w/cpp/container/set/contains) and had to be changed manually.
There are many other cases that could have been changed, but we've reverted most of those to reduce conflict with other open PRs.
-----
<details>
<summary>clang-tidy command on Mac</summary>
```bash
rm -rfd build && \
cmake -B build \
-DCMAKE_C_COMPILER="$(brew --prefix llvm)/bin/clang" \
-DCMAKE_CXX_COMPILER="$(brew --prefix llvm)/bin/clang++" \
-DCMAKE_OSX_SYSROOT="$(xcrun --show-sdk-path)" \
-DCMAKE_C_FLAGS="-target arm64-apple-macos11" \
-DCMAKE_CXX_FLAGS="-target arm64-apple-macos11" \
-DCMAKE_EXPORT_COMPILE_COMMANDS=ON -DBUILD_BENCH=ON -DBUILD_FUZZ_BINARY=ON -DBUILD_FOR_FUZZING=ON
"$(brew --prefix llvm)/bin/run-clang-tidy" -quiet -p build -j$(nproc) -checks='-*,readability-container-contains' | grep -v 'clang-tidy'
```
</details>
Note: this is a take 2 of https://github.com/bitcoin/bitcoin/pull/33094 with fewer contentious changes.
ACKs for top commit:
optout21:
reACK d9319b06cf82664d55f255387a348135fd7f91c7
sedited:
ACK d9319b06cf82664d55f255387a348135fd7f91c7
janb84:
re ACK d9319b06cf82664d55f255387a348135fd7f91c7
pablomartin4btc:
re-ACK d9319b06cf82664d55f255387a348135fd7f91c7
ryanofsky:
Code review ACK d9319b06cf82664d55f255387a348135fd7f91c7. I manually reviewed the full change, and it seems there are a lot of positive comments about this and no more very significant conflicts, so I will merge it shortly.
Tree-SHA512: e4415221676cfb88413ccc446e5f4369df7a55b6642347277667b973f515c3c8ee5bfa9ee0022479c8de945c89fbc9ff61bd8ba086e70f30298cbc1762610fe1
Change ChainstateRole parameter passed to wallets and indexes. Wallets and
indexes need to know whether chainstate is historical and whether it is fully
validated. They should not be aware of the assumeutxo snapshot validation
process.
Use to simplify code determining the chainstate leveldb paths. New method is
the now the only code that needs to figure out the storage path, so the path
doesn't need to be constructed multiple places and backed out of leveldb.
The changes made here were:
| From | To |
|-------------------|------------------|
| `m.count(k)` | `m.contains(k)` |
| `!m.count(k)` | `!m.contains(k)` |
| `m.count(k) == 0` | `!m.contains(k)` |
| `m.count(k) != 0` | `m.contains(k)` |
| `m.count(k) > 0` | `m.contains(k)` |
The commit contains the trivial, mechanical refactors where it doesn't matter if the container can have multiple elements or not
Co-authored-by: Jan B <608446+janb84@users.noreply.github.com>
17cf9ff7efdbab07644fc2f9017fcac1b0757c38 Use cluster size limit for -maxmempool bound, and allow -maxmempool=0 in general (Suhas Daftuar)
315e43e5d86c06b1e51b907f1942cab150205d24 Sanity check `GetFeerateDiagram()` in CTxMemPool::check() (Suhas Daftuar)
de2e9a24c40e1915827506250ed0bbda4009ce83 test: extend package rbf functional test to larger clusters (Suhas Daftuar)
4ef4ddb504e53cb148e8dd713695db37df0e1e4f doc: update policy/packages.md for new package acceptance logic (Suhas Daftuar)
79f73ad713a8d62a6172fbad228cbca848f9ff57 Add check that GetSortedScoreWithTopology() agrees with CompareMiningScoreWithTopology() (Suhas Daftuar)
a86ac117681727b6e72ab50ed751d0d3b0cdff34 Update comments for CTxMemPool class (Suhas Daftuar)
9567eaa66da88a79c54f7a77922d817862122af2 Invoke TxGraph::DoWork() at appropriate times (Suhas Daftuar)
6c5c44f774058bf2a0dfaaadc78347dcb5815f52 test: add functional test for new cluster mempool RPCs (Suhas Daftuar)
72f60c877e001bb8cbcd3a7fb7addfdaba149693 doc: Update mempool_replacements.md to reflect feerate diagram checks (Suhas Daftuar)
21693f031a534193cc7f066a5c6e23db3937bf39 Expose cluster information via rpc (Suhas Daftuar)
72e74e0d42284c712529bf3c619b1b740c070f1b fuzz: try to add more code coverage for mempool fuzzing (Suhas Daftuar)
f107417490ab5b81d3ec139de777a19db87845b6 bench: add more mempool benchmarks (Suhas Daftuar)
7976eb1ae77af2c88e1e61e85d4a61390b34b986 Avoid violating mempool policy limits in tests (Suhas Daftuar)
84de685cf7ee3baf3ca73087e5222411a0504df8 Stop tracking parents/children outside of txgraph (Suhas Daftuar)
88672e205ba1570fc92449b557fd32d836618781 Rewrite GatherClusters to use the txgraph implementation (Suhas Daftuar)
1ca4f01090cfa968c789fafde42054da3263a0e2 Fix miniminer_tests to work with cluster limits (Suhas Daftuar)
1902111e0f20fe6b5c12be019d24691d6b0b8d3e Eliminate CheckPackageLimits, which no longer does anything (Suhas Daftuar)
3a646ec4626441c8c2946598f94199a65d9646d6 Rework RBF and TRUC validation (Suhas Daftuar)
19b8479868e5c854d9268e3647b9488f9b23af0f Make getting parents/children a function of the mempool, not a mempool entry (Suhas Daftuar)
5560913e51af036b5e6907e08cd07488617b12f7 Rework truc_policy to use descendants, not children (Suhas Daftuar)
a4458d6c406215dccb31fd35e0968a65a3269670 Use txgraph to calculate descendants (Suhas Daftuar)
c8b6f70d6492a153b59697d6303fc0515f316f89 Use txgraph to calculate ancestors (Suhas Daftuar)
241a3e666b59abb695c9d0a13d7458a763c2c5a0 Simplify ancestor calculation functions (Suhas Daftuar)
b9cec7f0a1e089cd77bb2fa1c2b54e93442e594c Make removeConflicts private (Suhas Daftuar)
0402e6c7808017bf5c04edb4b68128ede7d1c1e7 Remove unused limits from CalculateMemPoolAncestors (Suhas Daftuar)
08be765ac26a3ae721cb3574d4348602a9982e44 Remove mempool logic designed to maintain ancestor/descendant state (Suhas Daftuar)
fc4e3e6bc12284d3b328c1ad19502294accfe5ad Remove unused members from CTxMemPoolEntry (Suhas Daftuar)
ff3b398d124b9efa49b612dbbb715bbe5d53e727 mempool: eliminate accessors to mempool entry ancestor/descendant cached state (Suhas Daftuar)
b9a2039f51226dce2c4e38ce5f26eefee171744b Eliminate use of cached ancestor data in miniminer_tests and truc_policy (Suhas Daftuar)
ba09fc9774d5a0eaa58d93a2fa20bef1efc74f1e mempool: Remove unused function CalculateDescendantMaximum (Suhas Daftuar)
8e49477e86b3089ea70d1f2659b9fd3a8a1f7db4 wallet: Replace max descendant count with cluster_count (Suhas Daftuar)
e031085fd464b528c186948d3cbf1c08a5a8d624 Eliminate Single-Conflict RBF Carve Out (Suhas Daftuar)
cf3ab8e1d0a2f2bdf72e61e2c2dcb35987e5b9bd Stop enforcing descendant size/count limits (Suhas Daftuar)
89ae38f48965ec0d6c0600ce4269fdc797274161 test: remove rbf carveout test from mempool_limit.py (Suhas Daftuar)
c0bd04d18fdf77a2f20f3c32f8eee4f1d71afd79 Calculate descendant information for mempool RPC output on-the-fly (Suhas Daftuar)
bdcefb8a8b0667539744eae63e9eb5b7dc1c51da Use mempool/txgraph to determine if a tx has descendants (Suhas Daftuar)
69e1eaa6ed22f542ab48da755fa63f7694a15533 Add test case for cluster size limits to TRUC logic (Suhas Daftuar)
9cda64b86c593f0d6ff8f17e483e6566f436b200 Stop enforcing ancestor size/count limits (Suhas Daftuar)
1f93227a84a54397699ca40d889f98913e4d5868 Remove dependency on cached ancestor data in mini-miner (Suhas Daftuar)
9fbe0a4ac26c2fddaa3201cdfd8b69bf1f5ffa01 rpc: Calculate ancestor data from scratch for mempool rpc calls (Suhas Daftuar)
7961496dda2eb24a3f09d661005f06611558a20a Reimplement GetTransactionAncestry() to not rely on cached data (Suhas Daftuar)
feceaa42e8eb43344ced33d94187e93268d45187 Remove CTxMemPool::GetSortedDepthAndScore (Suhas Daftuar)
21b5cea588a7bfe758a8d14efe90046b111db428 Use cluster linearization for transaction relay sort order (Suhas Daftuar)
6445aa7d97551ec5d501d91f6829071c67169122 Remove the ancestor and descendant indices from the mempool (Suhas Daftuar)
216e6937290338950215795291dbf0a533e234cf Implement new RBF logic for cluster mempool (Suhas Daftuar)
ff8f115dec6eb41f739e6e6738dd60becfa168fd policy: Remove CPFP carveout rule (Suhas Daftuar)
c3f1afc934e69a9849625924f72a5886a85eb833 test: rewrite PopulateMempool to not violate mempool policy (cluster size) limits (Suhas Daftuar)
47ab32fdb158069d4422e0f92078603c6df070a6 Select transactions for blocks based on chunk feerate (Suhas Daftuar)
dec138d1ddc79cc3a06e53ed255f0931ce46e684 fuzz: remove comparison between mini_miner block construction and miner (Suhas Daftuar)
6c2bceb200aa7206d44b551d42ad3e70943f1425 bench: rewrite ComplexMemPool to not create oversized clusters (Suhas Daftuar)
1ad4590f63855e856d59616d41a87873315c3a2e Limit mempool size based on chunk feerate (Suhas Daftuar)
b11c89cab210c87ebaf34fbd2a73d28353e8c7bd Rework miner_tests to not require large cluster limit (Suhas Daftuar)
95a8297d481e96d65ac81e4dac72b2ebecb9c765 Check cluster limits when using -walletrejectlongchains (Suhas Daftuar)
95762e6759597d201d685ed6bf6df6eedccf9a00 Do not allow mempool clusters to exceed configured limits (Suhas Daftuar)
edb3e7cdf63688058ad2b90bea0d4933d9967be8 [test] rework/delete feature_rbf tests requiring large clusters (glozow)
435fd5671116b990cf3b875b99036606f921a71d test: update feature_rbf.py replacement test (Suhas Daftuar)
34e32985e811607e7566ae7a6caeacdf8bd8384f Add new (unused) limits for cluster size/count (Suhas Daftuar)
838d7e3553661cb6ba0be32dd872bafb444822d9 Add transactions to txgraph, but without cluster dependencies (Suhas Daftuar)
d5ed9cb3eb52c33c5ac36421bb2da00290be6087 Add accessor for sigops-adjusted weight (Suhas Daftuar)
1bf3b513966e34b45ea359cbe7576383437f5d93 Add sigops adjusted weight calculator (Suhas Daftuar)
c18c68a950d3a17e80ad0bc11ac7ee3de1a87f6c Create a txgraph inside CTxMemPool (Suhas Daftuar)
29a94d5b2f26a4a8b7464894e4db944ea67241b7 Make CTxMemPoolEntry derive from TxGraph::Ref (Suhas Daftuar)
92b0079fe3863b20b71282aa82341d4b6ee4b337 Allow moving CTxMemPoolEntry objects, disallow copying (Suhas Daftuar)
6c73e4744837a7dc138a9177df3a48f30a1ba6c1 mempool: Store iterators into mapTx in mapNextTx (Suhas Daftuar)
51430680ecb722e1d4ee4a26dac5724050f41c9e Allow moving an Epoch::Marker (Suhas Daftuar)
Pull request description:
[Reopening #28676 here as a new PR, because GitHub is slow to load the page making it hard to scroll through and see comments. Also, that PR was originally opened with a prototype implementation which has changed significantly with the introduction of `TxGraph`.]
This is an implementation of the [cluster mempool proposal](https://delvingbitcoin.org/t/an-overview-of-the-cluster-mempool-proposal/393).
This branch implements the following observable behavior changes:
- Maintains a partitioning of the mempool into connected clusters (via the `txgraph` class), which are limited in vsize to 101 kvB by default, and limited in count to 64 by default.
- Each cluster is sorted ("linearized") to try to optimize for selecting highest-feerate-subsets of a cluster first
- Transaction selection for mining is updated to use the cluster linearizations, selecting highest feerate "chunks" first for inclusion in a block template.
- Mempool eviction is updated to use the cluster linearizations, selecting lowest feerate "chunks" first for removal.
- The RBF rules are updated to: (a) drop the requirement that no new inputs are introduced; (b) change the feerate requirement to instead check that the feerate diagram of the mempool will strictly improve; (c) replace the direct conflicts limit with a directly-conflicting-clusters limit.
- The CPFP carveout rule is eliminated (it doesn't make sense in a cluster-limited mempool)
- The ancestor and descendant limits are no longer enforced.
- New cluster count/cluster vsize limits are now enforced instead.
- Transaction relay now uses chunk feerate comparisons to determine the order that newly received transactions are announced to peers.
Additionally, the cached ancestor and descendant data are dropped from the mempool, along with the multi_index indices that were maintained to sort the mempool by ancestor and descendant feerates. For compatibility (eg with wallet behavior or RPCs exposing this), this information is now calculated dynamically instead.
ACKs for top commit:
instagibbs:
reACK 17cf9ff7efdbab07644fc2f9017fcac1b0757c38
glozow:
reACK 17cf9ff7efdbab07644fc2f9017fcac1b0757c38
sipa:
ACK 17cf9ff7efdbab07644fc2f9017fcac1b0757c38
Tree-SHA512: bbde46d913d56f8d9c0426cb0a6c4fa80b01b0a4c2299500769921f886082fb4f51f1694e0ee1bc318c52e1976d7ebed8134a64eda0b8044f3a708c04938eee7
Changes AddToMempool() helper to only apply changes if the mempool limits are
respected.
Fix package_rbf fuzz target to handle mempool policy violations
