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| # Bridge GRANDPA Pallet | ||
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| The bridge GRANDPA pallet is a light client for the GRANDPA finality gadget, running at the bridged chain. | ||
| It may import headers and their GRANDPA finality proofs (justifications) of the bridged chain. Imported | ||
| headers then may be used to verify storage proofs by other pallets. This makes the bridge GRANDPA pallet | ||
| a basic pallet of all bridges with Substrate-based chains. It is used by all bridge types (bridge between | ||
| standalone chains, between parachains and any combination of those) and is used by other bridge pallets. | ||
| It is used by the parachains light client (bridge parachains pallet) and by messages pallet. | ||
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| ## A Brief Introduction into GRANDPA Finality | ||
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| You can find detailed information on GRANDPA, by exploring its [repository](https://github.com/paritytech/finality-grandpa). | ||
| Here is the minimal reqiuired GRANDPA information to understand how pallet works. | ||
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| Any Substrate chain may use different block authorship algorithms (like BABE or Aura) to determine block producers and | ||
| generate blocks. This has nothing common with finality, though - the task of block authorship is to coordinate | ||
| blocks generation. Any block may be reverted (if there's a fork) if it is not finalized. The finality solution | ||
| for (standalone) Substrate-based chains is the GRANDPA finality gadget. If some block is finalized by the gadget, it | ||
| can't be reverted. | ||
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| In GRANDPA, there are validators, identified by their public keys. They select some generated block and produce | ||
| signatures on this block hash. If there are enough (more than `2 / 3 * N`, where `N` is number of validators) | ||
| signatures, then the block is considered finalized. The set of signatures for the block is called justification. | ||
| Anyone who knows the public keys of validators is able to verify GRANDPA justification and that it is generated | ||
| for provided header. | ||
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| There are two main things in GRANDPA that help building light clients: | ||
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| - there's no need to import all headers of the bridged chain. Light client may import finalized headers or just | ||
| some of finalized headders that it consider useful. While the validators set stays the same, the client may | ||
| import any header that is finalized by this set; | ||
| - when validators set changes, the GRANDPA gadget adds next set to the header. So light client doesn't need to | ||
| verify storage proofs when this happens - it only needs to look at the header and see if it changes the set. | ||
| Once set is changed, all following justifications are generated by the new set. Header that is changing the | ||
| set is called "mandatory" in the pallet. As the name says, the light client need to import all such headers | ||
| to be able to operate properly. | ||
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| ## Pallet Operations | ||
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| The main entrypoint of the pallet is the `submit_finality_proof` call. It has two arguments - the finalized | ||
| headers and associated GRANDPA justification. The call simply verifies the justification using current | ||
| validators set and checks if header is better than the previous best header. If both checks are passed, the | ||
| header (only its useful fields) is inserted into the runtime storage and may be used by other pallets to verify | ||
| storage proofs. | ||
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| The submitter pays regular fee for submitting all headers, except for the mandatory header. Since it is | ||
| required for the pallet operations, submitting such header is free. So if you're ok with session-length | ||
| lags (meaning that there's exactly 1 mandatory header per session), the cost of pallet calls is zero. | ||
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| When the pallet sees mandatory header, it updates the validators set with the set from the header. All | ||
| following justifications (until next mandatory header) must be generated by this new set. | ||
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| ## Pallet Initialization | ||
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| As the previous section states, there are two things that are mandatory for pallet operations: best finalized | ||
| header and the current validators set. Without it the pallet can't import any headers. But how to provide | ||
| initial values for these fields? There are two options. | ||
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| First option, while it is easier, doesn't work in all cases. It is to start chain with initial header and | ||
| validators set specified in the chain specification. This won't work, however, if we want to add bridge | ||
| to already started chain. | ||
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| For the latter case we have the `initialize` call. It accepts the initial header and initial validators set. | ||
| The call may be called by the governance, root or by the pallet owner (if it is set). | ||
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| ## Non-Essential Functionality | ||
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| There may be a special account in every runtime where the bridge GRANDPA module is deployed. This | ||
| account, named 'module owner', is like a module-level sudo account - he's able to halt and | ||
| resume all module operations without requiring runtime upgrade. Calls that are related to this | ||
| account are: | ||
| - `fn set_owner()`: current module owner may call it to transfer "ownership" to another account; | ||
| - `fn set_operating_mode()`: the module owner (or sudo account) may call this function to stop all | ||
| module operations. After this call, all finality proofs will be rejected until further `set_operating_mode` call'. | ||
| This call may be used when something extraordinary happens with the bridge; | ||
| - `fn initialize()`: module owner may call this function to initialize the bridge. | ||
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| If pallet owner is not defined, the governance may be used to make those calls. | ||
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| ## GRANDPA Finality Relay | ||
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| We have an offchain actor, who is watching for GRANDPA justifications and submits them to the bridged chain. | ||
| It is the finality relay - you may look at the [crate level documentation and the code](../../relays/finality/). |
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