lbry.tech/documents/claimtrie.md

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The Merkle Claim Trie

How the data structure that organizes claims by names works, how proofs are generated/verified and how consensus on the state of the trie is represented.

For looking into how claims end up in the trie, read that instead.

The Trie

A Trie is an ordered tree data structure. Think of it as a hash map or dictionary where the keys are ordered and organized in prefixes. It's used for storing claims by name and looks (a bit) like that: Wikipedia claimtrie

You can read more on it here, but for understanding the claimtrie let's just think of it as a mapping of names and claims where you can easily find which character of a name preffix forms a collision. Like the first t for {to, tea, ted, ten} and the e in te for {tea, ted, ten}.

Consensus

Each block header holds an extra 256 bits value calculated out of the root node of the claim trie at that block height. It's called nameclaimroot and is influenced by all children nodes as we will see next. If a blockchain network peer disagrees that a claim name was accepted or who is the winner of each name, its nameclaimroot will differ and the block won't form the same chain as the ones that accepted the official rules. This is the same for the traditional Merkle Root, which is the root of the Merkle Tree, formed by transactions in a block.

What's in a leaf?

The leaf currently holds the winner of that name. Its formed by the transaction hash, output number of the claim in that transaction and the height it was accepted.

Generating the leaf hash

So, let's suppose that the winner claim of mindblown name was made at transaction output 1 of the transaction hash 67ad533eb2676c9d36bfa100092af5358de747e08ef928c0c54a8b3891c2b76b and included in the Trie at height 102.

  1. The transaction hash is converted from RPC byte order to internal byte order.
  2. The output number as a simple string.
  3. The height as a big endian 64 bits value.
  4. The node hash is calculated as the double sha-256 hash of the double sha-256 hash of the internal byte order representation of the transaction hash concatenated with the double sha-256 hash of the output number representation concatenated with the double sha-256 hash of the height.

This is better represented in the simple python script below:

import struct
from hashlib import sha256
from binascii import unhexlify, hexlify
name = "mindblown".encode()
tx = '67ad533eb2676c9d36bfa100092af5358de747e08ef928c0c54a8b3891c2b76b'
nout = 1
at_height = 102

sha256d = lambda x: sha256(sha256(x).digest()).digest()
def hash_leaf(tx, nout, height):
    raw_tx = unhexlify(tx)[::-1]
    raw_nout = str(nout).encode()
    raw_height = struct.pack('>Q', height)
    return sha256d(sha256d(raw_tx) + sha256d(raw_nout) + sha256d(raw_height))

print("leaf hash is {}".format(hexlify(hash_leaf(tx, nout, at_height)[::-1])))

How the root hash is calculated?

Let's start with a Claim Trie holding a single claim. The claim is named mindblown and was included at block 102 with the same details as the last section. It's actually a real claim as you can see in the block explorer. This block has the first claim ever, so the claimtrie was the simple case being explained in here. We start with the leaf hash:

  1. Hash the leaf hash using double sha-256.
  2. For each character of the name (nodes of the trie), the hash of a node is the double sha-256 of the node's character concatenated with the children hash.

Continuing with the Python script from the last section, this is how to calculate the root of a claim trie holding a single name:

def hash_single_claim_trie(name, claim_tx, claim_nout, claim_height):
    final_hash = sha256d(hash_leaf(claim_tx, claim_nout, claim_height))
    for character in reversed(name):
        final_hash = sha256d(bytearray([character]) + final_hash)
    return final_hash

print("root hash is {}".format(hexlify(hash_single_claim_trie(name, tx, nout, at_height)[::-1])))

What if there are more leafs?

Just concatenate the node character with the childrens hashes sha256d(character + leftmost child hash + ... + rightmost child hash ). TO BE IMPROVED