node-packet
node-packet-header tool for making packet header and body.
Read binary packets...
Parse and generate MQTT packets like a breeze
An abstract-encoding compliant module for encoding / decoding DNS packets
TypeScript definitions for dns-packet
socket.io protocol parser
Low level multicast-dns implementation in pure javascript
RADIUS packet encoding/decoding
The documentation at https://serialport.io/docs/api-parser-packet-length
pure nodejs OPCUA SDK - module packet-assembler
Small, modern WASM bindings for libopus raw packet encode/decode.
TypeScript definitions for multicast-dns
Basic data structure for packets in Aedes
An abstract-encoding compliant module for encoding / decoding DNS packets
LayerZero Utility V2
DNS Packet handling in pure javascript
Generate and Parse CoAP packets
Stream-based Connection object for MQTT, extracted from MQTT.js
An abstract-encoding compliant module for encoding / decoding DNS packets
Verify,create adonis websocket packets
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Raw DNS Packet Parsing and Writing
Throttle your connection
Nmunch is a passive network discovery tool that finds live network nodes by analyzing ARP and broadcast packets.
RightAgent provides a foundation for running an agent on a server to interface in a secure fashion with other agents in the RightScale system using RightNet, which operates in either HTTP or AMQP mode. When using HTTP, RightAgent makes requests to RightApi servers and receives requests using long-polling or WebSockets via the RightNet router. To respond to requests it posts to the HTTP router. When using AMQP, RightAgent uses RabbitMQ as the message bus and the RightNet router as the routing node to make requests; to receives requests routed to it by the RightNet router, it establishes a queue on startup. The packets are structured to invoke services in the agent represented by actors and methods. The RightAgent may respond to these requests with a result packet that the router then routes to the originator.
Pure Ruby implementation of RFC 7252 (Constrained Application Protocol (CoAP)). The Constrained Application Protocol (CoAP) is a specialized web transfer protocol for use with constrained nodes and constrained (e.g., low-power, lossy) networks. The nodes often have 8-bit microcontrollers with small amounts of ROM and RAM, while constrained networks such as IPv6 over Low-Power Wireless Personal Area Networks (6LoWPANs) often have high packet error rates and a typical throughput of 10s of kbit/s. The protocol is designed for machine-to-machine (M2M) applications such as smart energy and building automation.
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