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fork-aware transaction pool added #4639
Conversation
I can offer field testing service on Integritee-Paseo. We suffer from #1202 and need to restart one paseo collator authority every 5 min to get all extrinsics in which originate from a single wallet. |
@brenzi: The code still needs polishing but it is ready to be tested in testnet. So if you can give it a try that would be greate, I can assist with debugging. Following option shall be provided to enable new txpool:
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@michalkucharczyk just cherry-picking this PR would suffice to test it? I can also try to test it in our testnet |
Yes. But if you have custom node, you will also need to instantiate new txpool, here is example: polkadot-sdk/cumulus/polkadot-parachain/src/service.rs Lines 157 to 164 in 62b08b0
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thank you, we will try it |
This should reduce the number of empty blocks, which are built when block builder is building upon blocks that are unknown to transaction pool. The ligh-maintain fallback will also be implemented.
Please take a look here for cli args: #4639 (comment) |
fatp_limits_watcher_non_intial_view_drops_transaction was rarely failing
This pull request has been mentioned on Polkadot Forum. There might be relevant details there: https://forum.polkadot.network/t/the-fork-aware-transaction-pool/10468/1 |
Fork-Aware Transaction Pool Implementation
This PR introduces a fork-aware transaction pool (fatxpool) enhancing transaction management by maintaining the valid state of txpool for different forks.
High-level overview
The high level overview was added to
sc_transaction_pool::fork_aware_txpool
module. Use:to build the doc. It should give a good overview and nice entry point into the new pool's mechanics.
Quick overview (documentation excerpt)
View
For every fork, a view is created. The view is a persisted state of the transaction pool computed and updated at the tip of the fork. The view is built around the existing
ValidatedPool
structure.A view is created on every new best block notification. To create a view, one of the existing views is chosen and cloned.
When the chain progresses, the view is kept in the cache (
retracted_views
) to allow building blocks upon intermediary blocks in the fork.The views are deleted on finalization: views lower than the finalized block are removed.
The views are updated with the transactions from the mempool—all transactions are sent to the newly created views.
A maintain process is also executed for the newly created views—basically resubmitting and pruning transactions from the appropriate tree route.
View store
View store is the helper structure that acts as a container for all the views. It provides some convenient methods.
Submitting transactions
Every transaction is submitted to every view at the tips of the forks. Retracted views are not updated.
Every transaction also goes into the mempool.
Internal mempool
Shortly, the main purpose of an internal mempool is to prevent a transaction from being lost. That could happen when a transaction is invalid on one fork and could be valid on another. It also allows the txpool to accept transactions when no blocks have been reported yet.
The mempool removes its transactions when they get finalized. Transactions are also periodically verified on every finalized event and removed from the mempool if no longer valid.
Events
Transaction events from multiple views are merged and filtered to avoid duplicated events.
Ready
/Future
/Inblock
events are originated in the Views and are de-duplicated and forwarded to external listeners.Finalized
events are originated in fork-aware-txpool logic.Invalid
events requires special care and can be originated in both view and fork-aware-txpool logic.Light maintain
Sometime transaction pool does not have enough time to prepare fully maintained view with all retracted transactions being revalidated. To avoid providing empty ready transaction set to block builder (what would result in empty block) the light maintain was implemented. It simply removes the imported transactions from ready iterator.
Revalidation
Revalidation is performed for every view. The revalidation process is started after a trigger is executed. The revalidation work is terminated just after a new best block / finalized event is notified to the transaction pool.
The revalidation result is applied to the newly created view which is built upon the revalidated view.
Additionally, parts of the mempool are also revalidated to make sure that no transactions are stuck in the mempool.
Logs
The most important log allowing to understand the state of the txpool is:
It is logged after the maintenance is done.
The
debug
level enables per-transaction logging, allowing to keep track of all transaction-related actions that happened in txpool.Integration notes
For teams having a custom node, the new txpool needs to be instantiated, typically in
service.rs
file, here is an example:polkadot-sdk/cumulus/polkadot-omni-node/lib/src/common/spec.rs
Lines 152 to 161 in 9c547ff
To enable new transaction pool the following cli arg shall be specified:
--pool-type=fork-aware
. If it works, there shall be information printed in the log:For debugging the following debugs shall be enabled:
note: trace for txpool enables per-transaction logging.
Future work
The current implementation seems to be stable, however further improvements are required.
Here is the umbrella issue for future work:
fatxpool
: Master issue for upcoming work #5472Partially fixes: #1202