-
Notifications
You must be signed in to change notification settings - Fork 699
New issue
Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.
By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.
Already on GitHub? Sign in to your account
bump reed-solomon-novelpoly version #3065
Merged
Merged
Conversation
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
also remove some dead code and deduplicate some error handling
alindima
added
T0-node
This PR/Issue is related to the topic “node”.
T8-polkadot
This PR/Issue is related to/affects the Polkadot network.
labels
Jan 25, 2024
ordian
approved these changes
Jan 25, 2024
alexggh
approved these changes
Jan 25, 2024
sandreim
approved these changes
Jan 25, 2024
alindima
added
the
R0-silent
Changes should not be mentioned in any release notes
label
Jan 25, 2024
lexnv
approved these changes
Jan 25, 2024
10 tasks
github-merge-queue bot
pushed a commit
that referenced
this pull request
May 28, 2024
**Don't look at the commit history, it's confusing, as this branch is based on another branch that was merged** Fixes #598 Also implements [RFC #47](polkadot-fellows/RFCs#47) ## Description - Availability-recovery now first attempts to request the systematic chunks for large POVs (which are the first ~n/3 chunks, which can recover the full data without doing the costly reed-solomon decoding process). This has a fallback of recovering from all chunks, if for some reason the process fails. Additionally, backers are also used as a backup for requesting the systematic chunks if the assigned validator is not offering the chunk (each backer is only used for one systematic chunk, to not overload them). - Quite obviously, recovering from systematic chunks is much faster than recovering from regular chunks (4000% faster as measured on my apple M2 Pro). - Introduces a `ValidatorIndex` -> `ChunkIndex` mapping which is different for every core, in order to avoid only querying the first n/3 validators over and over again in the same session. The mapping is the one described in RFC 47. - The mapping is feature-gated by the [NodeFeatures runtime API](#2177) so that it can only be enabled via a governance call once a sufficient majority of validators have upgraded their client. If the feature is not enabled, the mapping will be the identity mapping and backwards-compatibility will be preserved. - Adds a new chunk request protocol version (v2), which adds the ChunkIndex to the response. This may or may not be checked against the expected chunk index. For av-distribution and systematic recovery, this will be checked, but for regular recovery, no. This is backwards compatible. First, a v2 request is attempted. If that fails during protocol negotiation, v1 is used. - Systematic recovery is only attempted during approval-voting, where we have easy access to the core_index. For disputes and collator pov_recovery, regular chunk requests are used, just as before. ## Performance results Some results from subsystem-bench: with regular chunk recovery: CPU usage per block 39.82s with recovery from backers: CPU usage per block 16.03s with systematic recovery: CPU usage per block 19.07s End-to-end results here: #598 (comment) #### TODO: - [x] [RFC #47](polkadot-fellows/RFCs#47) - [x] merge #2177 and rebase on top of those changes - [x] merge #2771 and rebase - [x] add tests - [x] preliminary performance measure on Versi: see #598 (comment) - [x] Rewrite the implementer's guide documentation - [x] #3065 - [x] paritytech/zombienet#1705 and fix zombienet tests - [x] security audit - [x] final versi test and performance measure --------- Signed-off-by: alindima <alin@parity.io> Co-authored-by: Javier Viola <javier@parity.io>
hitchhooker
pushed a commit
to ibp-network/polkadot-sdk
that referenced
this pull request
Jun 5, 2024
**Don't look at the commit history, it's confusing, as this branch is based on another branch that was merged** Fixes paritytech#598 Also implements [RFC paritytech#47](polkadot-fellows/RFCs#47) ## Description - Availability-recovery now first attempts to request the systematic chunks for large POVs (which are the first ~n/3 chunks, which can recover the full data without doing the costly reed-solomon decoding process). This has a fallback of recovering from all chunks, if for some reason the process fails. Additionally, backers are also used as a backup for requesting the systematic chunks if the assigned validator is not offering the chunk (each backer is only used for one systematic chunk, to not overload them). - Quite obviously, recovering from systematic chunks is much faster than recovering from regular chunks (4000% faster as measured on my apple M2 Pro). - Introduces a `ValidatorIndex` -> `ChunkIndex` mapping which is different for every core, in order to avoid only querying the first n/3 validators over and over again in the same session. The mapping is the one described in RFC 47. - The mapping is feature-gated by the [NodeFeatures runtime API](paritytech#2177) so that it can only be enabled via a governance call once a sufficient majority of validators have upgraded their client. If the feature is not enabled, the mapping will be the identity mapping and backwards-compatibility will be preserved. - Adds a new chunk request protocol version (v2), which adds the ChunkIndex to the response. This may or may not be checked against the expected chunk index. For av-distribution and systematic recovery, this will be checked, but for regular recovery, no. This is backwards compatible. First, a v2 request is attempted. If that fails during protocol negotiation, v1 is used. - Systematic recovery is only attempted during approval-voting, where we have easy access to the core_index. For disputes and collator pov_recovery, regular chunk requests are used, just as before. ## Performance results Some results from subsystem-bench: with regular chunk recovery: CPU usage per block 39.82s with recovery from backers: CPU usage per block 16.03s with systematic recovery: CPU usage per block 19.07s End-to-end results here: paritytech#598 (comment) #### TODO: - [x] [RFC paritytech#47](polkadot-fellows/RFCs#47) - [x] merge paritytech#2177 and rebase on top of those changes - [x] merge paritytech#2771 and rebase - [x] add tests - [x] preliminary performance measure on Versi: see paritytech#598 (comment) - [x] Rewrite the implementer's guide documentation - [x] paritytech#3065 - [x] paritytech/zombienet#1705 and fix zombienet tests - [x] security audit - [x] final versi test and performance measure --------- Signed-off-by: alindima <alin@parity.io> Co-authored-by: Javier Viola <javier@parity.io>
TarekkMA
pushed a commit
to moonbeam-foundation/polkadot-sdk
that referenced
this pull request
Aug 2, 2024
**Don't look at the commit history, it's confusing, as this branch is based on another branch that was merged** Fixes paritytech#598 Also implements [RFC paritytech#47](polkadot-fellows/RFCs#47) ## Description - Availability-recovery now first attempts to request the systematic chunks for large POVs (which are the first ~n/3 chunks, which can recover the full data without doing the costly reed-solomon decoding process). This has a fallback of recovering from all chunks, if for some reason the process fails. Additionally, backers are also used as a backup for requesting the systematic chunks if the assigned validator is not offering the chunk (each backer is only used for one systematic chunk, to not overload them). - Quite obviously, recovering from systematic chunks is much faster than recovering from regular chunks (4000% faster as measured on my apple M2 Pro). - Introduces a `ValidatorIndex` -> `ChunkIndex` mapping which is different for every core, in order to avoid only querying the first n/3 validators over and over again in the same session. The mapping is the one described in RFC 47. - The mapping is feature-gated by the [NodeFeatures runtime API](paritytech#2177) so that it can only be enabled via a governance call once a sufficient majority of validators have upgraded their client. If the feature is not enabled, the mapping will be the identity mapping and backwards-compatibility will be preserved. - Adds a new chunk request protocol version (v2), which adds the ChunkIndex to the response. This may or may not be checked against the expected chunk index. For av-distribution and systematic recovery, this will be checked, but for regular recovery, no. This is backwards compatible. First, a v2 request is attempted. If that fails during protocol negotiation, v1 is used. - Systematic recovery is only attempted during approval-voting, where we have easy access to the core_index. For disputes and collator pov_recovery, regular chunk requests are used, just as before. ## Performance results Some results from subsystem-bench: with regular chunk recovery: CPU usage per block 39.82s with recovery from backers: CPU usage per block 16.03s with systematic recovery: CPU usage per block 19.07s End-to-end results here: paritytech#598 (comment) #### TODO: - [x] [RFC paritytech#47](polkadot-fellows/RFCs#47) - [x] merge paritytech#2177 and rebase on top of those changes - [x] merge paritytech#2771 and rebase - [x] add tests - [x] preliminary performance measure on Versi: see paritytech#598 (comment) - [x] Rewrite the implementer's guide documentation - [x] paritytech#3065 - [x] paritytech/zombienet#1705 and fix zombienet tests - [x] security audit - [x] final versi test and performance measure --------- Signed-off-by: alindima <alin@parity.io> Co-authored-by: Javier Viola <javier@parity.io>
Sign up for free
to join this conversation on GitHub.
Already have an account?
Sign in to comment
Labels
R0-silent
Changes should not be mentioned in any release notes
T0-node
This PR/Issue is related to the topic “node”.
T8-polkadot
This PR/Issue is related to/affects the Polkadot network.
Add this suggestion to a batch that can be applied as a single commit.
This suggestion is invalid because no changes were made to the code.
Suggestions cannot be applied while the pull request is closed.
Suggestions cannot be applied while viewing a subset of changes.
Only one suggestion per line can be applied in a batch.
Add this suggestion to a batch that can be applied as a single commit.
Applying suggestions on deleted lines is not supported.
You must change the existing code in this line in order to create a valid suggestion.
Outdated suggestions cannot be applied.
This suggestion has been applied or marked resolved.
Suggestions cannot be applied from pending reviews.
Suggestions cannot be applied on multi-line comments.
Suggestions cannot be applied while the pull request is queued to merge.
Suggestion cannot be applied right now. Please check back later.
also remove some dead code and deduplicate some error handling
the new release brings performance improvements and support for systematic chunk recovery, needed in: #1644