Network Domains
Waku is a unified and cohesive entity that offers a rich ecosystem with three distinct network interaction domains. These domains serve specialised purposes and contribute to the robust functionality of Waku, forming its foundation.
Discovery domain
Peer discovery in Waku facilitates locating other nodes within the network. As a modular protocol, Waku incorporates various discovery mechanisms, such as Discv5 and Peer Exchange. These mechanisms allow developers to choose the most suitable option(s) for their specific use cases and user environments, including mobile phones, desktop browsers, servers, and more.
Gossip domain
GossipSub derives its name from the practice within Pub/Sub networks where peers gossip about the messages they have encountered, thus establishing a message delivery network.
Waku employs gossiping through Relay to distribute messages across the network. Additionally, Waku introduces RLN Relay, an experimental mechanism that combines privacy preservation and economic spam protection.
Request/response domain
Waku provides a set of protocols to optimise its performance in resource-limited environments like low bandwidth or mostly offline scenarios for multiple purposes.
- Store enables the retrieval of historical messages.
- Filter efficiently retrieves a subset of messages to conserve bandwidth.
- Light Push facilitates message publication for nodes with limited bandwidth and short connection windows.
Overview of protocol interaction
Here is a diagram illustrating the interaction between different protocols within the Waku Network.
The Pub/Sub topic pubtopic1
serves as a means of routing messages (the network employs a default Pub/Sub topic) and indicates that it is subscribed to messages on that topic for a relay. Node D serves as a Store
and is responsible for persisting messages.
- Node A creates a WakuMessage
msg1
with Content TopiccontentTopic1
. - Node F requests to get messages filtered by Pub/Sub topic
pubtopic1
and Content TopiccontentTopic1
. Node D subscribes F to this filter and will forward messages that match that filter in the future. - Node A publishes
msg1
onpubtopic1
. The message is sent from Node A to Node B and then forwarded to Node D. - Node D, upon receiving
msg1
, stores the message for future retrieval by other nodes and forwards it to Node C. - Node D also pushes
msg1
to Node F, informing it about the arrival of a new message. - At a later time, Node E comes online and requests messages matching
pubtopic1
andcontentTopic1
from Node D. Node D responds withmsg1
and potentially other messages that match the query.