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/**
* NATSBridge - Cross-Platform Bi-Directional Data Bridge
* JavaScript/Node.js Implementation
*
* This module provides functionality for sending and receiving data across network boundaries
* using NATS as the message bus, with support for both direct payload transport and
* URL-based transport for larger payloads.
*
* @module NATSBridge
*/
const nats = require('nats');
const { v4: uuidv4 } = require('uuid');
const fetch = require('node-fetch');
const arrow = require('apache-arrow');
// ---------------------------------------------- Constants ---------------------------------------------- //
/**
* Default size threshold for switching from direct to link transport (1MB)
*/
const DEFAULT_SIZE_THRESHOLD = 1_000_000;
/**
* Default NATS server URL
*/
const DEFAULT_BROKER_URL = 'nats://localhost:4222';
/**
* Default HTTP file server URL for link transport
*/
const DEFAULT_FILESERVER_URL = 'http://localhost:8080';
// ---------------------------------------------- Utility Functions ---------------------------------------------- //
/**
* Convert Buffer to Base64 string
* @param {Buffer} buffer - Buffer to encode
* @returns {string} Base64 encoded string
*/
function bufferToBase64(buffer) {
return buffer.toString('base64');
}
/**
* Log a trace message with correlation ID and timestamp
* @param {string} correlationId - Correlation ID for tracing
* @param {string} message - Message content to log
*/
function logTrace(correlationId, message) {
const timestamp = new Date().toISOString();
console.log(`[${timestamp}] [Correlation: ${correlationId}] ${message}`);
}
// ---------------------------------------------- Serialization Functions ---------------------------------------------- //
/**
* Serialize data according to specified format
* @param {any} data - Data to serialize
* @param {string} payloadType - Target format: "text", "dictionary", "table", "image", "audio", "video", "binary"
* @returns {Buffer} Binary representation of the serialized data
*/
async function serializeData(data, payloadType) {
if (payloadType === 'text') {
if (typeof data === 'string') {
return Buffer.from(data, 'utf8');
} else {
throw new Error('Text data must be a string');
}
} else if (payloadType === 'dictionary') {
const jsonStr = JSON.stringify(data);
return Buffer.from(jsonStr, 'utf8');
} else if (payloadType === 'table') {
// Convert array of objects to Arrow IPC format
if (!Array.isArray(data) || data.length === 0) {
throw new Error('Table data must be a non-empty array of objects');
}
return serializeArrowTable(data);
} else if (payloadType === 'image') {
if (data instanceof Uint8Array || Buffer.isBuffer(data)) {
return Buffer.from(data);
} else {
throw new Error('Image data must be Uint8Array or Buffer');
}
} else if (payloadType === 'audio') {
if (data instanceof Uint8Array || Buffer.isBuffer(data)) {
return Buffer.from(data);
} else {
throw new Error('Audio data must be Uint8Array or Buffer');
}
} else if (payloadType === 'video') {
if (data instanceof Uint8Array || Buffer.isBuffer(data)) {
return Buffer.from(data);
} else {
throw new Error('Video data must be Uint8Array or Buffer');
}
} else if (payloadType === 'binary') {
if (data instanceof Uint8Array || Buffer.isBuffer(data)) {
return Buffer.from(data);
} else {
throw new Error('Binary data must be Uint8Array or Buffer');
}
} else {
throw new Error(`Unknown payload_type: ${payloadType}`);
}
}
/**
* Helper function to properly serialize table data to Arrow IPC
* @param {Array<Object>} data - Array of objects representing table rows
* @returns {Buffer} Arrow IPC formatted buffer
*/
function serializeArrowTable(data) {
if (!Array.isArray(data) || data.length === 0) {
throw new Error('Table data must be a non-empty array of objects');
}
// Build schema from first row
const fields = Object.keys(data[0]).map(key => {
const value = data[0][key];
let arrowType;
if (typeof value === 'number') {
arrowType = Number.isInteger(value) ? arrow.Int64 : arrow.Float64;
} else if (typeof value === 'boolean') {
arrowType = arrow.Boolean;
} else if (value instanceof Date) {
arrowType = arrow.Date;
} else {
arrowType = arrow.Utf8;
}
return new arrow.Field(key, arrowType, true);
});
const schema = new arrow.Schema(fields);
const batches = [];
// Create record batches
for (const row of data) {
const batch = arrow.recordBatch.fromObjects([row], schema);
batches.push(batch);
}
// Write to buffer using IPC format
const buffers = arrow.ipc.recordBatchesToMessage(batches, schema).buffers;
const combined = new Uint8Array(buffers.reduce((acc, b) => acc + b.byteLength, 0));
let offset = 0;
for (const buf of buffers) {
combined.set(new Uint8Array(buf), offset);
offset += buf.byteLength;
}
return Buffer.from(combined);
}
/**
* Deserialize bytes to data based on type
* @param {Buffer|Uint8Array} data - Serialized data as bytes
* @param {string} payloadType - Data type
* @param {string} correlationId - Correlation ID for logging
* @returns {any} Deserialized data
*/
async function deserializeData(data, payloadType, correlationId) {
const buffer = Buffer.isBuffer(data) ? data : Buffer.from(data);
if (payloadType === 'text') {
return buffer.toString('utf8');
} else if (payloadType === 'dictionary') {
const jsonStr = buffer.toString('utf8');
return JSON.parse(jsonStr);
} else if (payloadType === 'table') {
const table = arrow.tableFromRawBytes(buffer);
return table;
} else if (payloadType === 'image') {
return buffer;
} else if (payloadType === 'audio') {
return buffer;
} else if (payloadType === 'video') {
return buffer;
} else if (payloadType === 'binary') {
return buffer;
} else {
throw new Error(`Unknown payload_type: ${payloadType}`);
}
}
// ---------------------------------------------- File Server Handlers ---------------------------------------------- //
/**
* Upload data to plik server in one-shot mode
* @param {string} fileServerUrl - Base URL of the plik server
* @param {string} dataname - Name of the file being uploaded
* @param {Buffer|Uint8Array} data - Raw byte data of the file content
* @returns {Promise<{status: number, uploadid: string, fileid: string, url: string}>}
*/
async function plikOneshotUpload(fileServerUrl, dataname, data) {
const buffer = Buffer.isBuffer(data) ? data : Buffer.from(data);
// Get upload id
const urlGetUploadID = `${fileServerUrl}/upload`;
const headers = { 'Content-Type': 'application/json' };
const body = JSON.stringify({ OneShot: true });
const httpResponse = await fetch(urlGetUploadID, {
method: 'POST',
headers,
body
});
const responseJson = await httpResponse.json();
const uploadid = responseJson.id;
const uploadtoken = responseJson.uploadToken;
// Upload file
const urlUpload = `${fileServerUrl}/file/${uploadid}`;
const form = new FormData();
const blob = new Blob([buffer], { type: 'application/octet-stream' });
form.append('file', blob, dataname);
const uploadHeaders = {
'X-UploadToken': uploadtoken
};
const uploadResponse = await fetch(urlUpload, {
method: 'POST',
headers: uploadHeaders,
body: form
});
const uploadJson = await uploadResponse.json();
const fileid = uploadJson.id;
const url = `${fileServerUrl}/file/${uploadid}/${fileid}/${dataname}`;
return {
status: uploadResponse.status,
uploadid,
fileid,
url
};
}
/**
* Fetch data from URL with exponential backoff
* @param {string} url - URL to fetch from
* @param {number} maxRetries - Maximum number of retry attempts
* @param {number} baseDelay - Initial delay in milliseconds
* @param {number} maxDelay - Maximum delay in milliseconds
* @param {string} correlationId - Correlation ID for logging
* @returns {Promise<Uint8Array>} Fetched data as bytes
*/
async function fetchWithBackoff(url, maxRetries, baseDelay, maxDelay, correlationId) {
let delay = baseDelay;
for (let attempt = 1; attempt <= maxRetries; attempt++) {
try {
const response = await fetch(url);
if (response.status === 200) {
logTrace(correlationId, `Successfully fetched data from ${url} on attempt ${attempt}`);
const arrayBuffer = await response.arrayBuffer();
return new Uint8Array(arrayBuffer);
} else {
throw new Error(`Failed to fetch: ${response.status}`);
}
} catch (e) {
logTrace(correlationId, `Attempt ${attempt} failed: ${e.constructor.name}`);
if (attempt < maxRetries) {
await new Promise(resolve => setTimeout(resolve, delay));
delay = Math.min(delay * 2, maxDelay);
}
}
}
throw new Error(`Failed to fetch data after ${maxRetries} attempts`);
}
// ---------------------------------------------- NATS Client ---------------------------------------------- //
/**
* NATS client wrapper for connection management
*/
class NATSClient {
/**
* Create a new NATS client
* @param {string} url - NATS server URL
*/
constructor(url) {
this.url = url;
this.connection = null;
}
/**
* Connect to NATS server
* @returns {Promise<NATS.Connection>}
*/
async connect() {
this.connection = await nats.connect({ servers: this.url });
return this.connection;
}
/**
* Publish message to NATS subject
* @param {string} subject - NATS subject to publish to
* @param {string} message - Message to publish
* @param {string} correlationId - Correlation ID for logging
*/
async publish(subject, message, correlationId) {
if (!this.connection) {
await this.connect();
}
await this.connection.publish(subject, message);
logTrace(correlationId, `Message published to ${subject}`);
}
/**
* Close the NATS connection
*/
async close() {
if (this.connection) {
this.connection.close();
}
}
}
// ---------------------------------------------- Core Functions ---------------------------------------------- //
/**
* Publish message to NATS
* @param {string|NATSClient|NATS.Connection} brokerUrlOrClient - NATS URL, client, or connection
* @param {string} subject - NATS subject to publish to
* @param {string} message - JSON message to publish
* @param {string} correlationId - Correlation ID for tracing
*/
async function publishMessage(brokerUrlOrClient, subject, message, correlationId) {
let conn;
if (brokerUrlOrClient instanceof NATSClient) {
conn = brokerUrlOrClient;
} else if (brokerUrlOrClient instanceof nats.Connection) {
// Create a wrapper for direct connection
conn = {
async publish(subj, msg) {
await brokerUrlOrClient.publish(subj, msg);
},
async close() {
await brokerUrlOrClient.close();
}
};
} else {
// String URL - create new client
const client = new NATSClient(brokerUrlOrClient);
conn = client;
}
await conn.publish(subject, message, correlationId);
if (conn instanceof NATSClient) {
await conn.close();
}
}
/**
* Build message envelope from payloads and metadata
* @param {string} subject - NATS subject
* @param {Array} payloads - Array of payload objects
* @param {Object} options - Envelope metadata options
* @returns {Object} Envelope object
*/
function buildEnvelope(subject, payloads, options) {
return {
correlation_id: options.correlation_id,
msg_id: options.msg_id,
timestamp: new Date().toISOString(),
send_to: subject,
msg_purpose: options.msg_purpose,
sender_name: options.sender_name,
sender_id: options.sender_id,
receiver_name: options.receiver_name,
receiver_id: options.receiver_id,
reply_to: options.reply_to,
reply_to_msg_id: options.reply_to_msg_id,
broker_url: options.broker_url,
metadata: options.metadata || {},
payloads: payloads
};
}
/**
* Build payload object from serialized data
* @param {string} dataname - Name of the payload
* @param {string} payloadType - Type of the payload
* @param {Buffer} payloadBytes - Serialized payload bytes
* @param {string} transport - Transport type ("direct" or "link")
* @param {string} data - Data (base64 for direct, URL for link)
* @returns {Object} Payload object
*/
function buildPayload(dataname, payloadType, payloadBytes, transport, data) {
return {
id: uuidv4(),
dataname,
payload_type: payloadType,
transport,
encoding: transport === 'direct' ? 'base64' : 'none',
size: payloadBytes.byteLength,
data,
metadata: transport === 'direct' ? { payload_bytes: payloadBytes.byteLength } : {}
};
}
/**
* Send data via NATS with automatic transport selection
*
* This function intelligently routes data delivery based on payload size.
* If the serialized payload is smaller than size_threshold, it encodes the data as Base64
* and publishes directly over NATS. Otherwise, it uploads the data to a fileserver
* and publishes only the download URL over NATS.
*
* @param {string} subject - NATS subject to publish the message to
* @param {Array} data - List of [dataname, data, type] tuples to send
* @param {Object} options - Optional configuration
* @param {string} [options.broker_url=DEFAULT_BROKER_URL] - URL of the NATS server
* @param {string} [options.fileserver_url=DEFAULT_FILESERVER_URL] - URL of the HTTP file server
* @param {Function} [options.fileserver_upload_handler=plikOneshotUpload] - Function to handle fileserver uploads
* @param {number} [options.size_threshold=DEFAULT_SIZE_THRESHOLD] - Threshold separating direct vs link transport
* @param {string} [options.correlation_id=uuidv4()] - Correlation ID for tracing
* @param {string} [options.msg_purpose="chat"] - Purpose of the message
* @param {string} [options.sender_name="NATSBridge"] - Name of the sender
* @param {string} [options.receiver_name=""] - Name of the receiver (empty means broadcast)
* @param {string} [options.receiver_id=""] - UUID of the receiver (empty means broadcast)
* @param {string} [options.reply_to=""] - Topic to reply to
* @param {string} [options.reply_to_msg_id=""] - Message ID this message is replying to
* @param {boolean} [options.is_publish=true] - Whether to automatically publish the message
* @param {NATSClient|NATS.Connection} [options.nats_connection=null] - Pre-existing NATS connection
* @param {string} [options.msg_id=uuidv4()] - Message ID
* @param {string} [options.sender_id=uuidv4()] - Sender ID
* @returns {Promise<[Object, string]>} Tuple of [env, env_json_str]
*
* @example
* // Send a single payload
* const [env, envJsonStr] = await smartsend(
* "/test",
* [["dataname1", data1, "dictionary"]],
* { broker_url: "nats://localhost:4222" }
* );
*
* // Send multiple payloads
* const [env, envJsonStr] = await smartsend(
* "/test",
* [
* ["dataname1", data1, "dictionary"],
* ["dataname2", data2, "table"]
* ],
* { broker_url: "nats://localhost:4222" }
* );
*
* // Send with pre-existing connection
* const client = await NATSBridge.NATSClient.connect("nats://localhost:4222");
* const [env, envJsonStr] = await smartsend(
* "/test",
* [["data", myData, "text"]],
* { nats_connection: client }
* );
*/
async function smartsend(subject, data, options = {}) {
const {
broker_url = DEFAULT_BROKER_URL,
fileserver_url = DEFAULT_FILESERVER_URL,
fileserver_upload_handler = plikOneshotUpload,
size_threshold = DEFAULT_SIZE_THRESHOLD,
correlation_id = uuidv4(),
msg_purpose = 'chat',
sender_name = 'NATSBridge',
receiver_name = '',
receiver_id = '',
reply_to = '',
reply_to_msg_id = '',
is_publish = true,
nats_connection = null,
msg_id = uuidv4(),
sender_id = uuidv4()
} = options;
logTrace(correlation_id, `Starting smartsend for subject: ${subject}`);
// Process payloads
const payloads = [];
for (const [dataname, payloadData, payloadType] of data) {
const payloadBytes = await serializeData(payloadData, payloadType);
const payloadSize = payloadBytes.byteLength;
logTrace(correlation_id, `Serialized payload '${dataname}' (type: ${payloadType}) size: ${payloadSize} bytes`);
if (payloadSize < size_threshold) {
// Direct path
const payloadB64 = bufferToBase64(payloadBytes);
logTrace(correlation_id, `Using direct transport for ${payloadSize} bytes`);
const payload = buildPayload(dataname, payloadType, payloadBytes, 'direct', payloadB64);
payloads.push(payload);
} else {
// Link path
logTrace(correlation_id, `Using link transport, uploading to fileserver`);
const response = await fileserver_upload_handler(fileserver_url, dataname, payloadBytes);
if (response.status !== 200) {
throw new Error(`Failed to upload data to fileserver: ${response.status}`);
}
logTrace(correlation_id, `Uploaded to URL: ${response.url}`);
const payload = buildPayload(dataname, payloadType, payloadBytes, 'link', response.url);
payloads.push(payload);
}
}
// Build envelope
const env = buildEnvelope(subject, payloads, {
correlation_id,
msg_id,
msg_purpose,
sender_name,
sender_id,
receiver_name,
receiver_id,
reply_to,
reply_to_msg_id,
broker_url
});
const env_json_str = JSON.stringify(env);
if (is_publish) {
if (nats_connection) {
await publishMessage(nats_connection, subject, env_json_str, correlation_id);
} else {
await publishMessage(broker_url, subject, env_json_str, correlation_id);
}
}
return [env, env_json_str];
}
/**
* Receive and process NATS message
*
* This function processes incoming NATS messages, handling both direct transport
* (base64 decoded payloads) and link transport (URL-based payloads).
* It deserializes the data based on the transport type and returns the result.
*
* @param {Object} msg - NATS message object with payload property
* @param {Object} options - Optional configuration
* @param {Function} [options.fileserver_download_handler=fetchWithBackoff] - Function to handle fileserver downloads
* @param {number} [options.max_retries=5] - Maximum retry attempts for fetching URL
* @param {number} [options.base_delay=100] - Initial delay for exponential backoff in ms
* @param {number} [options.max_delay=5000] - Maximum delay for exponential backoff in ms
* @returns {Promise<Object>} Envelope object with processed payloads
*
* @example
* // Receive and process message
* const env = await smartreceive(msg, {
* fileserver_download_handler: fetchWithBackoff,
* max_retries: 5,
* base_delay: 100,
* max_delay: 5000
* });
* // env.payloads is an Array of [dataname, data, type] arrays
* for (const [dataname, data, type] of env.payloads) {
* console.log(`${dataname}: ${data} (type: ${type})`);
* }
*/
async function smartreceive(msg, options = {}) {
const {
fileserver_download_handler = fetchWithBackoff,
max_retries = 5,
base_delay = 100,
max_delay = 5000
} = options;
// Parse the JSON envelope
const payload = typeof msg.payload === 'string' ? msg.payload : Buffer.from(msg.payload).toString('utf8');
const envJsonObj = JSON.parse(payload);
logTrace(envJsonObj.correlation_id, 'Processing received message');
// Process all payloads in the envelope
const payloadsList = [];
const numPayloads = envJsonObj.payloads.length;
for (let i = 0; i < numPayloads; i++) {
const payloadObj = envJsonObj.payloads[i];
const transport = payloadObj.transport;
const dataname = payloadObj.dataname;
if (transport === 'direct') {
logTrace(envJsonObj.correlation_id, `Direct transport - decoding payload '${dataname}'`);
// Extract base64 payload from the payload
const payloadB64 = payloadObj.data;
// Decode Base64 payload
const payloadBytes = Buffer.from(payloadB64, 'base64');
// Deserialize based on type
const dataType = payloadObj.payload_type;
const data = await deserializeData(payloadBytes, dataType, envJsonObj.correlation_id);
payloadsList.push([dataname, data, dataType]);
} else if (transport === 'link') {
// Extract download URL from the payload
const url = payloadObj.data;
logTrace(envJsonObj.correlation_id, `Link transport - fetching '${dataname}' from URL: ${url}`);
// Fetch with exponential backoff using the download handler
const downloadedData = await fileserver_download_handler(
url,
max_retries,
base_delay,
max_delay,
envJsonObj.correlation_id
);
// Deserialize based on type
const dataType = payloadObj.payload_type;
const data = await deserializeData(downloadedData, dataType, envJsonObj.correlation_id);
payloadsList.push([dataname, data, dataType]);
} else {
throw new Error(`Unknown transport type for payload '${dataname}': ${transport}`);
}
}
envJsonObj.payloads = payloadsList;
return envJsonObj;
}
// ---------------------------------------------- Module Exports ---------------------------------------------- //
const NATSBridge = {
/**
* NATS client class for connection management
*/
NATSClient,
/**
* Send data via NATS with automatic transport selection
*/
smartsend,
/**
* Receive and process NATS message
*/
smartreceive,
/**
* Upload data to plik server in one-shot mode
*/
plikOneshotUpload,
/**
* Fetch data from URL with exponential backoff
*/
fetchWithBackoff,
/**
* Default constants
*/
DEFAULT_SIZE_THRESHOLD,
DEFAULT_BROKER_URL,
DEFAULT_FILESERVER_URL
};
module.exports = NATSBridge;