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images added to network chapter

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Andreas M. Antonopoulos 2014-07-17 10:13:39 -04:00
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@ -11,9 +11,43 @@ Bitcoin is structured as a peer-to-peer network architecture on top of the Inter
Bitcoins P2P network architecture is much more than a topology choice. Bitcoin is a peer-to-peer digital cash system by design, and the network architecture is both a reflection and a foundation of that core characteristic. De-centralization of control is a core design principle and that can only be achieved and maintained by a flat, de-centralized P2P consensus network. Bitcoins P2P network architecture is much more than a topology choice. Bitcoin is a peer-to-peer digital cash system by design, and the network architecture is both a reflection and a foundation of that core characteristic. De-centralization of control is a core design principle and that can only be achieved and maintained by a flat, de-centralized P2P consensus network.
The term "bitcoin network" refers to the collection of nodes running the bitcoin P2P protocol. In addition to the bitcoin P2P protocol, there are other protocols such as Stratum, that are used for mining and lightweight or mobile wallets. These additional protocols are provided by gateway routing servers that access the bitcoin network using the bitcoin P2P protocol and then extend that network to nodes running other protocols. For example, Stratum servers connect Stratum mining nodes via the Stratum protocol to the main bitcoin network and bridge the Stratum protocol to the bitcoin P2P protocol. We use the term "extended bitcoin network" to refer to the overall network that includes the bitcoin P2P protocol, pool mining protocols, the Stratum protocol and any other related protocols connecting the components of the bitcoin system.
=== Nodes Types and Roles === Nodes Types and Roles
While nodes in the bitcoin P2P network are equal, they may take on different "roles", depending on the functionality they are supporting. A bitcoin node is a collection of functions: routing, the blockchain database, mining, and wallet services. All nodes include the routing function to participate in the network and may include other functionality. All nodes validate and propagate transactions and blocks, discover and maintain connections to peers. Some nodes, called full nodes, also maintain a complete and up-to-date copy of the blockchain. Full nodes can autonomously and authoritatively verify any transaction without external reference. Some nodes maintain only a subset of the blockchain and verify transactions using a method called _Simple Payment Verification_ or SPV. These nodes are known as SPV or Lightweight nodes. Mining nodes compete to create new blocks by running specialized hardware to solve the proof-of-work algorithm. Some mining nodes are also full nodes, maintaining a full copy of the blockchain while others are lightweight nodes participating in pool mining and depending on a pool server to maintain a full node. User wallets may be part of a full node, as is usually the case with desktop bitcoin clients. Increasingly many user wallets, especially those running on resource constrained devices such as smart phones, are SPV nodes. While nodes in the bitcoin P2P network are equal, they may take on different "roles", depending on the functionality they are supporting. A bitcoin node is a collection of functions: routing, the blockchain database, mining, and wallet services. A full node with all four of these functions is shown below:
[[full_node_reference]]
.A bitcoin network node with all four functions: Network routing, Blockchain database, Mining and Wallet
image::images/FullNodeReferenceClient_Small.png["FullNodeReferenceClient_Small"]
All nodes include the routing function to participate in the network and may include other functionality. All nodes validate and propagate transactions and blocks, discover and maintain connections to peers. In the full node example above, the routing function is indicated by an orange circle named "Network Routing Node".
Some nodes, called full nodes, also maintain a complete and up-to-date copy of the blockchain. Full nodes can autonomously and authoritatively verify any transaction without external reference. Some nodes maintain only a subset of the blockchain and verify transactions using a method called _Simple Payment Verification_ or SPV. These nodes are known as SPV or Lightweight nodes. In the full node example above, the full node blockchain database function is indicated by a blue circle named "Blockchain Database". SPV nodes are drawn without the blue circle, showing that they do not have a full copy of the blockchain.
Mining nodes compete to create new blocks by running specialized hardware to solve the proof-of-work algorithm. Some mining nodes are also full nodes, maintaining a full copy of the blockchain while others are lightweight nodes participating in pool mining and depending on a pool server to maintain a full node. The mining function is shown in the full node above as a black circle named "Mining".
User wallets may be part of a full node, as is usually the case with desktop bitcoin clients. Increasingly many user wallets, especially those running on resource constrained devices such as smart phones, are SPV nodes. The wallet function is shown above as a green circle named "Wallet".
In addition to the main node types on the bitcoin P2P protocol, there are servers and nodes running other protocols, such as specialized mining pool protocols and lightweight client access protocols.
Here are the most common node types on the extended bitcoin network:
[[node_type_ledgend]]
.Different types of nodes on the extended bitcoin network
image::images/BitcoinNodeTypes.png["BitcoinNodeTypes"]
=== The Extended Bitcoin Network
The extended bitcoin network is made up of a variety of network protocols, node types and node roles. The main bitcoin network, running the bitcoin P2P protocol consists of between 7,000 to 10,000 nodes running various versions of the bitcoin reference client (Bitcoin Core) and a few hundred nodes running various other implementations of the bitcoin P2P protocol, such as BitcoinJ, Libbitcoin and btcd. A small percentage of the nodes on the bitcoin P2P network are also mining nodes, competing in the mining process, validating transactions and creating new blocks. Various large companies interface with the bitcoin network by running full-node clients based on the Bitcoin Core client, with full copies of the blockchain and a network node, but without mining or wallet functions. These nodes act as network edge routers, allowing various other services (exchanges, wallets, block explorers, merchant payment processing) to be built on top.
Attached to the main bitcoin P2P network are a number of pool servers and protocol gateways that connect nodes running other protocols, mostly pool mining nodes (see <<mining>>) and lightweight wallet clients, which do not carry a full copy of the blockchain.
The diagram below shows the extended bitcoin network with the various types of nodes, gateway servers, edge routers and wallet clients and the various protocols they use to connect to each other.
[[bitcoin_network]]
.The extended bitcoin network showing various node types, gateways and protocols
image::images/BitcoinNetwork.png["BitcoinNetwork"]
=== Network Discovery === Network Discovery