--- slug: 30 title: 30/ADAPTIVE-NODES name: Adaptive nodes status: draft editor: Oskar Thorén contributors: --- This is an informational spec that show cases the concept of adaptive nodes. # Node types - a continuum We can look at node types as a continuum, from more restricted to less restricted, fewer resources to more resources. ![Node types - a continuum](../../../../rfcs/30/adaptive_node_continuum2.png) ## Possible limitations - Connectivity: Not publicly connectable vs static IP and DNS - Connectivity: Mostly offline to mostly online to always online - Resources: Storage, CPU, Memory, Bandwidth ## Accessibility and motivation Some examples: - Opening browser window: costs nothing, but contribute nothing - Desktop: download, leave in background, contribute somewhat - Cluster: expensive, upkeep, but can contribute a lot These are also illustrative, so a node in a browser in certain environment might contribute similarly to Desktop. ## Adaptive nodes We call these nodes *adaptive nodes* to highlights different modes of contributing, such as: - Only leeching from the network - Relaying messages for one or more topics - Providing services for lighter nodes such as lightpush and filter - Storing historical messages to various degrees - Ensuring relay network can't be spammed with RLN ## Planned incentives Incentives to run a node is currently planned around: - SWAP for accounting and settlement of services provided - RLN RELAY for spam protection - Other incentivization schemes are likely to follow and is an area of active research # Node protocol selection Each node can choose which protocols to support, depending on its resources and goals. ![Protocol selection](../../../../rfcs/30/adaptive_node_protocol_selection2.png) In the case of protocols like 11/WAKU2-RELAY etc (12, 13, 19, 21) these correspond to Libp2p protocols. However, other protocols like 16/WAKU2-RPC (local HTTP JSON-RPC), 25/LIBP2P-DNS-DISCOVERY, Discovery v5 (DevP2P) or interfacing with distributed storage, are running on different network stacks. This is in addition to protocols that specify payloads, such as 14/WAKU2-MESSAGE, 26/WAKU2-PAYLOAD, or application specific ones. As well as specs that act more as recommendations, such as 23/WAKU2-TOPICS or 27/WAKU2-PEERS. # Waku network visualization We can better visualize the network with some illustrative examples. ## Topology and topics The first one shows an example topology with different PubSub topics for the relay protocol. ![Waku Network visualization](../../../../rfcs/30/adaptive_node_network_topology_protocols2.png) ## Legend ![Waku Network visualization legend](../../../../rfcs/30/adaptive_node_network_topology_protocols_legend.png) The dotted box shows what content topics (application-specific) a node is interested in. A node that is purely providing a service to the network might not care. In this example, we see support for toy chat, a topic in Waku v1 (Status chat), WalletConnect, and SuperRare community. ## Auxiliary network This is a separate component with its own topology. Behavior and interaction with other protocols specified in Vac RFCs, e.g. 25/LIBP2P-DNS-DISCOVERY, 15/WAKU-BRIDGE, etc. ## Node Cross Section This one shows a cross-section of nodes in different dimensions and shows how the connections look different for different protocols. ![Node Cross Section](../../../../rfcs/30/adaptive_node_cross_section2.png) # Copyright Copyright and related rights waived via [CC0](https://creativecommons.org/publicdomain/zero/1.0/).