Rapidly sync validated blocks and snapshots from KYVE to every Tendermint based Blockchain Application
Important
In this README you will find information on contribution guidelines and detailed documentation about the low level implementation of KSYNC.
You can find the complete documentation on installation and usage here: https://docs.kyve.network/ksync
You can also install from source by pulling the ksync repository and switching to the correct version and building as follows:
git clone [email protected]:KYVENetwork/ksync.git
cd ksync
git checkout tags/vx.x.x -b vx.x.x
make build
This will build ksync in /build
directory. Afterward, you may want to put it into your machine's PATH like
as follows:
cp build/ksync ~/go/bin/ksync
Generally, you can contribute to KSYNC via Pull Requests. The following branch conventions are required:
- feat/*: for a new feature
- fix/*: for fixing a bug
- refactor/*: for improving code maintainability without changing any logic
- docs/*: for upgrading documentation around KSYNC
- test/*: for addition or changes in tests
For committing new changes Conventional Commits have to be used.
Once the Pull Request is ready, it can be opened against the main
branch. Once the owners have approved
your Pull Request your changes get merged.
For creating release versions Semantic Versioning is used. A release is created by manually creating the release over GitHub. For that the latest commit gets tagged with the new version, which will also be the title of the release. Once the release is created it gets automatically published to https://pkg.go.dev/github.com/KYVENetwork/ksync.
First of all, we need to clarify where KSYNC retrieves it's data in the first place. For that an overview can be found below showing the data sources depending on the sync type used:
As we can see, KSYNC first reaches out to the KYVE pools, depending on the source synced and on the sync type. There KSYNC queries KYVE's bundles endpoint (e.g. https://api-eu-1.kyve.network/kyve/v1/bundles/0) in order to get the storage ids and the checksums. With that KSYNC can download the actual data (blocks or snapshot chunks) from the storage provider and verfies the results with the checksum provided by KYVE. With the data now ready KSYNC can start applying this to the tendermint application.
In order for KSYNC to actually sync the blocks or snapshots, KSYNC basically replaces the inbuilt tendermint process and communicates with the app directly over the Tendermint Socket Protocol (TSP) with the ABCI interface. Once KSYNC has retrieved the requested blocks for the application from a permanent storage provider like Arweave it executes them against the app and stores all relevant information in the blockstore and state.db databases directly. The same applies to state-sync snapshots, where KSYNC offers the snapshots over the ABCI methods against the app.
After a node has been successfully synced with KSYNC the node simply can fetch remaining blocks and switch to live mode like it would have if synced normally. This makes operating nodes way cheaper and even may make archival nodes obsolete since blocks archived by KYVE can then be safely dropped in the nodes and synced again once needed with this tool. This process is very similar if KSYNC state-syncs.
Overview of how KSYNC interacts with the tendermint application:
There is only one exception, if the first block needs to be mined and if the genesis file
is bigger than 100MB the ABCI connection breaks, this is due to a limitation in the TSP protocol, where
incoming message are rejected if they are bigger than this limit. So for successfully calling the
ABCI method InitChain
(where the ABCI connection breaks) and afterwards executing the first block
we have to go over the P2P network.
Here KSYNC pretends to be a tendermint peer having the first block. After the app connects to KSYNC it sends over the first block and waits until the first block is executed. Finally KSYNC switches back to normal mode syncing directly over ABCI (because this is way more efficient).
An overview of how KSYNC syncs the first block over P2P can be found below: