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Blockchain-Cluster

The idea of this categorization is to make different blockchain protocols comparable and to identify protocol attack vectors. This categorization shall be seen as a first step towards a mature security blockchain research. Further details can be found in the associated thesis "Clustering Blockchain Protocols with Regards to Security Testing" from Tim Menapace. https://www.academia.edu/34955919/Clustering_Blockchain_Protocols_With_Regards_To_Security_Testing

Feel free to add new blockchain protocols or to enhance the categorization scheme by itself. //tim

Categories of Blockchain Design

A blockchain design is defined as the compound of the three design primitives transaction design, consensus design & block design.

Each Design primitive has several subcategories, described in the following tables:

Transaction Design

Category Description of the category. For each blockchain protocol a category can have different values.
Chaincode Code that is deployed into the blockchain inside a transaction and processed by every node in the network. Especially non-standard transaction code that is capable to enforce some kind of business logic.
Transaction Cryptography How does the protocol ensure confidentiality, integrity, non-repudiation and authentication of transactions?
--Key Generation The cryptographic algorithm that generates the public/private key pair.
--Address Generation The algorithm that generates the wallet address from the public key.
--Transaction Signature The algorithm that uses the public/private key pair to sign a transaction broadcasted to the network.

Consensus Design

Category Description of the category. For each blockchain protocol a category can have different values.
Consensus Algorithm The algorithm that lets the nodes in the network eventually come to one state. Depending on the number of malicious processes consensus is possible, see section \ref{BFT}.
Node Authentication How does a node authenticate itself to its peers in the network?
Governance How is the codebase of the Reference Implementation developed and who is leading this development?
Transparency Who got what kind of permissions on the network?
public: Everybody can read
private: Selected nodes can read
permissionless: Everybody can write
permissioned: Selected nodes can write

Data structure & Block Design

Category Description of the category. For each blockchain protocol a category can have different values.
Data structure How is the data of the blockchain stored in the nodes?
Blocktime The average time between two blocks.
Tokens Can users generate their own coin-like tokens?
Coin supply Is there a generic coin in the system? How is it supplied? Incentive to generatenew blocks?

Characteristics of Blockchain Protocols

Each subcategory can have different values. The following table is an ongoing collection of different values / characteristics for blockchain design.

Consensus Algorithm Node Authentification Governance Transparency Data structure Blocktime Coinsupply Tokens Key Generation Address Generation Transaction Signature Usage
Proof of work No decentralized public UTXO fixed time fixed amount Via chaincode ECC RIPEM160 & SHA256 ECDSA -ed25519 -secp256k1 computation
Proof of stake RLPx Foundation permissonless Merkle Patricia Tree adjustable unlimited No Tokens PKI X.509 SHA3 PKI X.509 file storage
Proof of burn X.509 incorporated private NoSQL DB No blocks no generic coin Kerl PKI X.509 Hash-based OTS external data
Proof of activity Mutual tethering permissioned Directed Acyclic Graph Kerl ring monetization
Proof of capacity Treestate payments
Proof of elapsed time cross-blockchain communication
pBFT media
Stellar Consensus Protocol supply chain
RAFT securitization
Federated settlement
assets
governance

Categorization of Blockchain Protocols

Bitcoin Ethereum Hyperledger Fabric IOTA Monero Zcash Stellar Tendermint Chain Tezos Sia BigchainDB Mediachain
Consensus Algorithm Proof-of-work SHA-256 Proof-of-work ethhash Ordering Service Tip selection MCMC Proof-of-work CryptoNight Proof-of-work equihash Stellar Consensus BFT PoW PoS
Node Authentification No BIP 150 & 151 Yes RLPx X.509 Mutual tethering
Governance decentralized Ethreum Foundation IBM & Linux Foundation IOTA Foundation decentralized Zcash Foundation Foundation
Transparency public & permissionless public & permissionless private & permissioned public & permissionless public & permissionless public & permissionless public & permissionless private & permissioned
Data structure UTXO Merkle Patricia Tree NoSQL DB Directed Acyclic Graph UTXO LMDB Treestate
Blocktime 10 min ~ 30 sec adjustable No blocks 2 min 150 sec
Coinsupply 21 mio BTC Unlimited ETH No generic coin ((3^33-1)/2) IOTA Unlimited XMR 21 mio 100 bil lumen No generic coin
Tokens Via script Via smart contract Via chaincode No Yes
Chaincode Bitcoin script Ethereum bytecode Chaincode No
Key Generation secp256k1 secp256k1 PKI X.509 Kerl Ternary Keccak384 ed25519 secp256k1
Address Generation RIPEMD160 & SHA-256 SHA3 PKI X.509 Keccak256 zk-SNARKs black SHA-256 SHA-256 blake2b SHA3-256
Transaction Signature ECDSA ECDSA PKI X.509 Hash-based One-time Signature ring signature BLAKE2b-256 ed25519 ed25519 ed25519 ed25519

Categorization of Blockchain Applications

Augur, Gnosis, Steemit, Counterparty <- To Do

uncategorized

bft, mining, nodes, Hash, Mempool, Merkle root, Seed,

properties

persistence, data exchange/data synchronization, immutability, availability, throughput, anonymity/pseudonymity, trustlessness, node operator, intregrated payment processes, currency, (near) real time

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