zolfa
/
tendermint


								/*

								package light provides a light client implementation.


								The concept of light clients was introduced in the Bitcoin white paper. It

								describes a watcher of distributed consensus process that only validates the

								consensus algorithm and not the state machine transactions within.


								Tendermint light clients allow bandwidth & compute-constrained devices, such as

								smartphones, low-power embedded chips, or other blockchains to efficiently

								verify the consensus of a Tendermint blockchain. This forms the basis of safe

								and efficient state synchronization for new network nodes and inter-blockchain

								communication (where a light client of one Tendermint instance runs in another

								chain's state machine).


								In a network that is expected to reliably punish validators for misbehavior by

								slashing bonded stake and where the validator set changes infrequently, clients

								can take advantage of this assumption to safely synchronize a light client

								without downloading the intervening headers.


								Light clients (and full nodes) operating in the Proof Of Stake context need a

								trusted block height from a trusted source that is no older than 1 unbonding

								window plus a configurable evidence submission synchrony bound. This is called

								weak subjectivity.


								Weak subjectivity is required in Proof of Stake blockchains because it is

								costless for an attacker to buy up voting keys that are no longer bonded and

								fork the network at some point in its prior history. See Vitalik's post at

								[Proof of Stake: How I Learned to Love Weak

								Subjectivity](https://blog.ethereum.org/2014/11/25/proof-stake-learned-love-weak-subjectivity/).


								NOTE: Tendermint provides a somewhat different (stronger) light client model

								than Bitcoin under eclipse, since the eclipsing node(s) can only fool the light

								client if they have two-thirds of the private keys from the last root-of-trust.


								# Common structures


								* SignedHeader


								SignedHeader is a block header along with a commit -- enough validator

								precommit-vote signatures to prove its validity (> 2/3 of the voting power)

								given the validator set responsible for signing that header.


								The hash of the next validator set is included and signed in the SignedHeader.

								This lets the light client keep track of arbitrary changes to the validator set,

								as every change to the validator set must be approved by inclusion in the

								header and signed in the commit.


								In the worst case, with every block changing the validators around completely,

								a light client can sync up with every block header to verify each validator set

								change on the chain. In practice, most applications will not have frequent

								drastic updates to the validator set, so the logic defined in this package for

								light client syncing is optimized to use intelligent bisection.


								# What this package provides


								This package provides three major things:


								1. Client implementation (see client.go)

								2. Pure functions to verify a new header (see verifier.go)

								3. Secure RPC proxy


								## 1. Client implementation (see client.go)


								Example usage:


										db, err := dbm.NewGoLevelDB("light-client-db", dbDir)

										if err != nil {

											// handle error

										}


										c, err := NewHTTPClient(

											chainID,

											TrustOptions{

												Period: 504 * time.Hour, // 21 days

												Height: 100,

												Hash:   header.Hash(),

											},

											"http://localhost:26657",

											[]string{"http://witness1:26657"},

											dbs.New(db, ""),

										)

										if err != nil {

											// handle error

										}


										h, err := c.TrustedHeader(100)

										if err != nil {

											// handle error

										}

										fmt.Println("header", h)


								Check out other examples in example_test.go


								## 2. Pure functions to verify a new header (see verifier.go)


								Verify function verifies a new header against some trusted header. See

								https://github.com/tendermint/tendermint/blob/master/spec/light-client/verification/README.md

								for details.


								There are two methods of verification: sequential and bisection


								Sequential uses the headers hashes and the validator sets to verify each adjacent header until

								it reaches the target header.


								Bisection finds the middle header between a trusted and new header, reiterating the action until it

								verifies a header. A cache of headers requested by the primary is kept such that when a

								verification is made, and the light client tries again to verify the new header in the middle,

								the light client does not need to ask for all the same headers again.


								refer to docs/imgs/light_client_bisection_alg.png


								## 3. Secure RPC proxy


								Tendermint RPC exposes a lot of info, but a malicious node could return any

								data it wants to queries, or even to block headers, even making up fake

								signatures from non-existent validators to justify it. Secure RPC proxy serves

								as a wrapper, which verifies all the headers, using a light client connected to

								some other node.


								See

								https://github.com/tendermint/tendermint/tree/master/spec/light-client

								for the light client specification.

								*/

								package light