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133 lines
5.2 KiB
133 lines
5.2 KiB
/*
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Package lite allows you to securely validate headers
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without a full node.
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This library pulls together all the crypto and algorithms,
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so given a relatively recent (< unbonding period) known
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validator set, one can get indisputable proof that data is in
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the chain (current state) or detect if the node is lying to
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the client.
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Tendermint RPC exposes a lot of info, but a malicious node
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could return any data it wants to queries, or even to block
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headers, even making up fake signatures from non-existent
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validators to justify it. This is a lot of logic to get
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right, to be contained in a small, easy to use library,
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that does this for you, so you can just build nice UI.
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We design for clients who have no strong trust relationship
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with any tendermint node, just the validator set as a whole.
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Beyond building nice mobile or desktop applications, the
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cosmos hub is another important example of a client,
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that needs undeniable proof without syncing the full chain,
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in order to efficiently implement IBC.
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Commits
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There are two main data structures that we pass around - Commit
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and FullCommit. Both of them mirror what information is
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exposed in tendermint rpc.
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Commit is a block header along with enough validator signatures
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to prove its validity (> 2/3 of the voting power). A FullCommit
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is a Commit along with the full validator set. When the
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validator set doesn't change, the Commit is enough, but since
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the block header only has a hash, we need the FullCommit to
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follow any changes to the validator set.
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Certifiers
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A Certifier validates a new Commit given the currently known
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state. There are three different types of Certifiers exposed,
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each one building on the last one, with additional complexity.
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Static - given the validator set upon initialization. Verifies
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all signatures against that set and if the validator set
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changes, it will reject all headers.
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Dynamic - This wraps Static and has the same Certify
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method. However, it adds an Update method, which can be called
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with a FullCommit when the validator set changes. If it can
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prove this is a valid transition, it will update the validator
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set.
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Inquiring - this wraps Dynamic and implements an auto-update
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strategy on top of the Dynamic update. If a call to
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Certify fails as the validator set has changed, then it
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attempts to find a FullCommit and Update to that header.
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To get these FullCommits, it makes use of a Provider.
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Providers
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A Provider allows us to store and retrieve the FullCommits,
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to provide memory to the Inquiring Certifier.
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NewMemStoreProvider - in-memory cache.
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files.NewProvider - disk backed storage.
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client.NewHTTPProvider - query tendermint rpc.
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NewCacheProvider - combine multiple providers.
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The suggested use for local light clients is
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client.NewHTTPProvider for getting new data (Source),
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and NewCacheProvider(NewMemStoreProvider(),
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files.NewProvider()) to store confirmed headers (Trusted)
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How We Track Validators
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Unless you want to blindly trust the node you talk with, you
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need to trace every response back to a hash in a block header
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and validate the commit signatures of that block header match
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the proper validator set. If there is a contant validator
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set, you store it locally upon initialization of the client,
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and check against that every time.
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Once there is a dynamic validator set, the issue of
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verifying a block becomes a bit more tricky. There is
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background information in a
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github issue (https://github.com/tendermint/tendermint/issues/377).
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In short, if there is a block at height H with a known
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(trusted) validator set V, and another block at height H'
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(H' > H) with validator set V' != V, then we want a way to
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safely update it.
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First, get the new (unconfirmed) validator set V' and
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verify H' is internally consistent and properly signed by
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this V'. Assuming it is a valid block, we check that at
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least 2/3 of the validators in V also signed it, meaning
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it would also be valid under our old assumptions.
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That should be enough, but we can also check that the
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V counts for at least 2/3 of the total votes in H'
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for extra safety (we can have a discussion if this is
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strictly required). If we can verify all this,
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then we can accept H' and V' as valid and use that to
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validate all blocks X > H'.
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If we cannot update directly from H -> H' because there was
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too much change to the validator set, then we can look for
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some Hm (H < Hm < H') with a validator set Vm. Then we try
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to update H -> Hm and Hm -> H' in two separate steps.
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If one of these steps doesn't work, then we continue
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bisecting, until we eventually have to externally
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validate the valdiator set changes at every block.
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Since we never trust any server in this protocol, only the
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signatures themselves, it doesn't matter if the seed comes
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from a (possibly malicious) node or a (possibly malicious) user.
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We can accept it or reject it based only on our trusted
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validator set and cryptographic proofs. This makes it
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extremely important to verify that you have the proper
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validator set when initializing the client, as that is the
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root of all trust.
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Or course, this assumes that the known block is within the
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unbonding period to avoid the "nothing at stake" problem.
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If you haven't seen the state in a few months, you will need
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to manually verify the new validator set hash using off-chain
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means (the same as getting the initial hash).
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*/
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package lite
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