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node-red/packages/node_modules/@node-red/runtime/lib/flows/Flow.js

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/**
* Copyright JS Foundation and other contributors, http://js.foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
**/
var clone = require("clone");
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var redUtil = require("@node-red/util").util;
const events = require("@node-red/util").events;
var flowUtil = require("./util");
const context = require('../nodes/context');
const hooks = require("../hooks");
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var Subflow;
var Log;
var nodeCloseTimeout = 15000;
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var asyncMessageDelivery = true;
/**
* This class represents a flow within the runtime. It is responsible for
* creating, starting and stopping all nodes within the flow.
*/
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class Flow {
/**
* Create a Flow object.
* @param {[type]} parent The parent flow
* @param {[type]} globalFlow The global flow definition
* @param {[type]} flow This flow's definition
*/
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constructor(parent,globalFlow,flow) {
this.TYPE = 'flow';
this.parent = parent;
this.global = globalFlow;
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if (typeof flow === 'undefined') {
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this.flow = globalFlow;
this.isGlobalFlow = true;
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} else {
this.flow = flow;
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this.isGlobalFlow = false;
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}
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this.id = this.flow.id || "global";
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this.activeNodes = {};
this.subflowInstanceNodes = {};
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this.catchNodes = [];
this.statusNodes = [];
this.path = this.id;
// Ensure a context exists for this flow
this.context = context.getFlowContext(this.id,this.parent.id);
}
/**
* Log a debug-level message from this flow
* @param {[type]} msg [description]
* @return {[type]} [description]
*/
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debug(msg) {
Log.log({
id: this.id||"global",
level: Log.DEBUG,
type:this.TYPE,
msg:msg
})
}
/**
* Log an error-level message from this flow
* @param {[type]} msg [description]
* @return {[type]} [description]
*/
error(msg) {
Log.log({
id: this.id||"global",
level: Log.ERROR,
type:this.TYPE,
msg:msg
})
}
/**
* Log a info-level message from this flow
* @param {[type]} msg [description]
* @return {[type]} [description]
*/
info(msg) {
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Log.log({
id: this.id||"global",
level: Log.INFO,
type:this.TYPE,
msg:msg
})
}
/**
* Log a trace-level message from this flow
* @param {[type]} msg [description]
* @return {[type]} [description]
*/
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trace(msg) {
Log.log({
id: this.id||"global",
level: Log.TRACE,
type:this.TYPE,
msg:msg
})
}
/**
* [log description]
* @param {[type]} msg [description]
* @return {[type]} [description]
*/
log(msg) {
if (!msg.path) {
msg.path = this.path;
}
this.parent.log(msg);
}
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/**
* Start this flow.
* The `diff` argument helps define what needs to be started in the case
* of a modified-nodes/flows type deploy.
* @param {[type]} msg [description]
* @return {[type]} [description]
*/
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start(diff) {
this.trace("start "+this.TYPE+" ["+this.path+"]");
var node;
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var newNode;
var id;
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this.catchNodes = [];
this.statusNodes = [];
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this.completeNodeMap = {};
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var configNodes = Object.keys(this.flow.configs);
var configNodeAttempts = {};
while (configNodes.length > 0) {
id = configNodes.shift();
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node = this.flow.configs[id];
if (!this.activeNodes[id]) {
if (node.d !== true) {
var readyToCreate = true;
// This node doesn't exist.
// Check it doesn't reference another non-existent config node
for (var prop in node) {
if (node.hasOwnProperty(prop) &&
prop !== 'id' &&
prop !== 'wires' &&
prop !== '_users' &&
this.flow.configs[node[prop]] &&
this.flow.configs[node[prop]].d !== true
) {
if (!this.activeNodes[node[prop]]) {
// References a non-existent config node
// Add it to the back of the list to try again later
configNodes.push(id);
configNodeAttempts[id] = (configNodeAttempts[id]||0)+1;
if (configNodeAttempts[id] === 100) {
throw new Error("Circular config node dependency detected: "+id);
}
readyToCreate = false;
break;
}
}
}
if (readyToCreate) {
newNode = flowUtil.createNode(this,node);
if (newNode) {
this.activeNodes[id] = newNode;
}
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}
} else {
this.debug("not starting disabled config node : "+id);
}
}
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}
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if (diff && diff.rewired) {
for (var j=0;j<diff.rewired.length;j++) {
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var rewireNode = this.activeNodes[diff.rewired[j]];
if (rewireNode) {
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rewireNode.updateWires(this.flow.nodes[rewireNode.id].wires);
}
}
}
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for (id in this.flow.nodes) {
if (this.flow.nodes.hasOwnProperty(id)) {
node = this.flow.nodes[id];
if (node.d !== true) {
if (!node.subflow) {
if (!this.activeNodes[id]) {
newNode = flowUtil.createNode(this,node);
if (newNode) {
this.activeNodes[id] = newNode;
}
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}
} else {
if (!this.subflowInstanceNodes[id]) {
try {
var subflowDefinition = this.flow.subflows[node.subflow]||this.global.subflows[node.subflow]
// console.log("NEED TO CREATE A SUBFLOW",id,node.subflow);
this.subflowInstanceNodes[id] = true;
var subflow = Subflow.create(
this,
this.global,
subflowDefinition,
node
);
this.subflowInstanceNodes[id] = subflow;
subflow.start();
this.activeNodes[id] = subflow.node;
// this.subflowInstanceNodes[id] = nodes.map(function(n) { return n.id});
// for (var i=0;i<nodes.length;i++) {
// if (nodes[i]) {
// this.activeNodes[nodes[i].id] = nodes[i];
// }
// }
} catch(err) {
console.log(err.stack)
}
}
}
} else {
this.debug("not starting disabled node : "+id);
}
}
}
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var activeCount = Object.keys(this.activeNodes).length;
if (activeCount > 0) {
this.trace("------------------|--------------|-----------------");
this.trace(" id | type | alias");
this.trace("------------------|--------------|-----------------");
}
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// Build the map of catch/status/complete nodes.
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for (id in this.activeNodes) {
if (this.activeNodes.hasOwnProperty(id)) {
node = this.activeNodes[id];
this.trace(" "+id.padEnd(16)+" | "+node.type.padEnd(12)+" | "+(node._alias||"")+(node._zAlias?" [zAlias:"+node._zAlias+"]":""));
if (node.type === "catch") {
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this.catchNodes.push(node);
} else if (node.type === "status") {
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this.statusNodes.push(node);
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} else if (node.type === "complete") {
if (node.scope) {
node.scope.forEach(id => {
this.completeNodeMap[id] = this.completeNodeMap[id] || [];
this.completeNodeMap[id].push(node);
})
}
}
}
}
this.catchNodes.sort(function(A,B) {
if (A.scope && !B.scope) {
return -1;
} else if (!A.scope && B.scope) {
return 1;
} else if (A.scope && B.scope) {
return 0;
} else if (A.uncaught && !B.uncaught) {
return 1;
} else if (!A.uncaught && B.uncaught) {
return -1;
}
return 0;
});
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if (activeCount > 0) {
this.trace("------------------|--------------|-----------------");
}
// this.dump();
}
/**
* Stop this flow.
* The `stopList` argument helps define what needs to be stopped in the case
* of a modified-nodes/flows type deploy.
* @param {[type]} stopList [description]
* @param {[type]} removedList [description]
* @return {[type]} [description]
*/
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stop(stopList, removedList) {
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this.trace("stop "+this.TYPE);
var i;
if (!stopList) {
stopList = Object.keys(this.activeNodes);
}
// this.trace(" stopList: "+stopList.join(","))
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// Convert the list to a map to avoid multiple scans of the list
var removedMap = {};
removedList = removedList || [];
removedList.forEach(function(id) {
removedMap[id] = true;
});
let nodesToStop = [];
let configsToStop = [];
stopList.forEach(id => {
if (this.flow.configs[id]) {
configsToStop.push(id);
} else {
nodesToStop.push(id);
}
});
stopList = nodesToStop.concat(configsToStop);
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var promises = [];
for (i=0;i<stopList.length;i++) {
var node = this.activeNodes[stopList[i]];
if (node) {
delete this.activeNodes[stopList[i]];
if (this.subflowInstanceNodes[stopList[i]]) {
delete this.subflowInstanceNodes[stopList[i]];
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}
try {
var removed = removedMap[stopList[i]];
promises.push(stopNode(node,removed).catch(()=>{}));
} catch(err) {
node.error(err);
}
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if (removedMap[stopList[i]]) {
events.emit("node-status",{
id: node.id
});
}
}
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}
return Promise.all(promises);
}
/**
* Update the flow definition. This doesn't change anything that is running.
* This should be called after `stop` and before `start`.
* @param {[type]} _global [description]
* @param {[type]} _flow [description]
* @return {[type]} [description]
*/
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update(_global,_flow) {
this.global = _global;
this.flow = _flow;
}
/**
* Get a node instance from this flow. If the node is not known to this
* flow, pass the request up to the parent.
* @param {String} id [description]
* @param {Boolean} cancelBubble if true, prevents the flow from passing the request to the parent
* This stops infinite loops when the parent asked this Flow for the
* node to begin with.
* @return {[type]} [description]
*/
getNode(id, cancelBubble) {
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if (!id) {
return undefined;
}
// console.log((new Error().stack).toString().split("\n").slice(1,3).join("\n"))
if ((this.flow.configs && this.flow.configs[id]) || (this.flow.nodes && this.flow.nodes[id])) {
// This is a node owned by this flow, so return whatever we have got
// During a stop/restart, activeNodes could be null for this id
return this.activeNodes[id];
} else if (this.activeNodes[id]) {
// TEMP: this is a subflow internal node within this flow
return this.activeNodes[id];
} else if (cancelBubble) {
// The node could be inside one of this flow's subflows
var node;
for (var sfId in this.subflowInstanceNodes) {
if (this.subflowInstanceNodes.hasOwnProperty(sfId)) {
node = this.subflowInstanceNodes[sfId].getNode(id,cancelBubble);
if (node) {
return node;
}
}
}
} else {
// Node not found inside this flow - ask the parent
return this.parent.getNode(id);
}
return undefined;
}
/**
* Get all of the nodes instantiated within this flow
* @return {[type]} [description]
*/
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getActiveNodes() {
return this.activeNodes;
}
/**
* Get a flow setting value. This currently automatically defers to the parent
* flow which, as defined in ./index.js returns `process.env[key]`.
* This lays the groundwork for Subflow to have instance-specific settings
* @param {[type]} key [description]
* @return {[type]} [description]
*/
getSetting(key) {
return this.parent.getSetting(key);
}
/**
* Handle a status event from a node within this flow.
* @param {Node} node The original node that triggered the event
* @param {Object} statusMessage The status object
* @param {Node} reportingNode The node emitting the status event.
* This could be a subflow instance node when the status
* is being delegated up.
* @param {boolean} muteStatusEvent Whether to emit the status event
* @return {[type]} [description]
*/
handleStatus(node,statusMessage,reportingNode,muteStatusEvent) {
if (!reportingNode) {
reportingNode = node;
}
if (!muteStatusEvent) {
if (statusMessage.hasOwnProperty("text") && typeof(statusMessage.text !== "string")) {
try {
statusMessage.text = statusMessage.text.toString();
}
catch(e) {}
}
events.emit("node-status",{
id: node.id,
status:statusMessage
});
}
let handled = false;
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if (this.id === 'global' && node.users) {
// This is a global config node
// Delegate status to any nodes using this config node
for (let userNode in node.users) {
if (node.users.hasOwnProperty(userNode)) {
node.users[userNode]._flow.handleStatus(node,statusMessage,node.users[userNode],true);
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}
}
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handled = true;
} else {
this.statusNodes.forEach(function(targetStatusNode) {
if (targetStatusNode.scope && targetStatusNode.scope.indexOf(reportingNode.id) === -1) {
return;
}
var message = {
status: clone(statusMessage)
}
if (statusMessage.hasOwnProperty("text")) {
message.status.text = statusMessage.text.toString();
}
message.status.source = {
id: node.id,
type: node.type,
name: node.name
}
targetStatusNode.receive(message);
handled = true;
});
}
return handled;
}
/**
* Handle an error event from a node within this flow. If there are no Catch
* nodes within this flow, pass the event to the parent flow.
* @param {[type]} node [description]
* @param {[type]} logMessage [description]
* @param {[type]} msg [description]
* @param {[type]} reportingNode [description]
* @return {[type]} [description]
*/
handleError(node,logMessage,msg,reportingNode) {
if (!reportingNode) {
reportingNode = node;
}
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// console.log("HE",logMessage);
var count = 1;
if (msg && msg.hasOwnProperty("error") && msg.error) {
if (msg.error.hasOwnProperty("source") && msg.error.source) {
if (msg.error.source.id === node.id) {
count = msg.error.source.count+1;
if (count === 10) {
node.warn(Log._("nodes.flow.error-loop"));
return false;
}
}
}
}
let handled = false;
if (this.id === 'global' && node.users) {
// This is a global config node
// Delegate status to any nodes using this config node
for (let userNode in node.users) {
if (node.users.hasOwnProperty(userNode)) {
node.users[userNode]._flow.handleError(node,logMessage,msg,node.users[userNode]);
}
}
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handled = true;
} else {
var handledByUncaught = false;
this.catchNodes.forEach(function(targetCatchNode) {
if (targetCatchNode.scope && targetCatchNode.scope.indexOf(reportingNode.id) === -1) {
return;
}
if (!targetCatchNode.scope && targetCatchNode.uncaught && !handledByUncaught) {
if (handled) {
// This has been handled by a !uncaught catch node
return;
}
// This is an uncaught error
handledByUncaught = true;
}
var errorMessage;
if (msg) {
errorMessage = redUtil.cloneMessage(msg);
} else {
errorMessage = {};
}
if (errorMessage.hasOwnProperty("error")) {
errorMessage._error = errorMessage.error;
}
errorMessage.error = {
message: logMessage.toString(),
source: {
id: node.id,
type: node.type,
name: node.name,
count: count
}
};
if (logMessage.hasOwnProperty('stack')) {
errorMessage.error.stack = logMessage.stack;
}
targetCatchNode.receive(errorMessage);
handled = true;
});
}
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return handled;
}
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handleComplete(node,msg) {
if (this.completeNodeMap[node.id]) {
let toSend = msg;
this.completeNodeMap[node.id].forEach((completeNode,index) => {
toSend = redUtil.cloneMessage(msg);
completeNode.receive(toSend);
})
}
}
send(sendEvents) {
// onSend - passed an array of SendEvent objects. The messages inside these objects are exactly what the node has passed to node.send - meaning there could be duplicate references to the same message object.
// preRoute - called once for each SendEvent object in turn
// preDeliver - the local router has identified the node it is going to send to. At this point, the message has been cloned if needed.
// postDeliver - the message has been dispatched to be delivered asynchronously (unless the sync delivery flag is set, in which case it would be continue as synchronous delivery)
// onReceive - a node is about to receive a message
// postReceive - the message has been passed to the node's input handler
// onDone, onError - the node has completed with a message or logged an error
handleOnSend(this,sendEvents, (err, eventData) => {
if (err) {
let srcNode;
if (Array.isArray(eventData)) {
srcNode = eventData[0].source.node;
} else {
srcNode = eventData.source.node;
}
srcNode.error(err);
}
});
}
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dump() {
console.log("==================")
console.log(this.TYPE, this.id);
for (var id in this.activeNodes) {
if (this.activeNodes.hasOwnProperty(id)) {
var node = this.activeNodes[id];
console.log(" ",id.padEnd(16),node.type)
if (node.wires) {
console.log(" -> ",node.wires)
}
}
}
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console.log("==================")
}
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}
/**
* Stop an individual node within this flow.
*
* @param {[type]} node [description]
* @param {[type]} removed [description]
* @return {[type]} [description]
*/
function stopNode(node,removed) {
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Log.trace("Stopping node "+node.type+":"+node.id+(removed?" removed":""));
const start = Date.now();
const closePromise = node.close(removed);
let closeTimer = null;
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const closeTimeout = new Promise((resolve,reject) => {
closeTimer = setTimeout(() => {
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reject("Close timed out");
}, nodeCloseTimeout);
});
return Promise.race([closePromise,closeTimeout]).then(() => {
clearTimeout(closeTimer);
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var delta = Date.now() - start;
Log.trace("Stopped node "+node.type+":"+node.id+" ("+delta+"ms)" );
}).catch(err => {
clearTimeout(closeTimer);
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node.error(Log._("nodes.flows.stopping-error",{message:err}));
Log.debug(err.stack);
})
}
function handleOnSend(flow,sendEvents, reportError) {
// onSend - passed an array of SendEvent objects. The messages inside these objects are exactly what the node has passed to node.send - meaning there could be duplicate references to the same message object.
hooks.trigger("onSend",sendEvents,(err) => {
if (err) {
reportError(err,sendEvents);
return
} else if (err !== false) {
for (var i=0;i<sendEvents.length;i++) {
handlePreRoute(flow,sendEvents[i],reportError)
}
}
});
}
function handlePreRoute(flow, sendEvent, reportError) {
// preRoute - called once for each SendEvent object in turn
hooks.trigger("preRoute",sendEvent,(err) => {
if (err) {
reportError(err,sendEvent);
return;
} else if (err !== false) {
sendEvent.destination.node = flow.getNode(sendEvent.destination.id);
if (sendEvent.destination.node) {
if (sendEvent.cloneMessage) {
sendEvent.msg = redUtil.cloneMessage(sendEvent.msg);
}
handlePreDeliver(flow,sendEvent,reportError);
}
}
})
}
function handlePreDeliver(flow,sendEvent, reportError) {
// preDeliver - the local router has identified the node it is going to send to. At this point, the message has been cloned if needed.
hooks.trigger("preDeliver",sendEvent,(err) => {
if (err) {
reportError(err,sendEvent);
return;
} else if (err !== false) {
if (asyncMessageDelivery) {
setImmediate(function() {
if (sendEvent.destination.node) {
sendEvent.destination.node.receive(sendEvent.msg);
}
})
} else {
if (sendEvent.destination.node) {
sendEvent.destination.node.receive(sendEvent.msg);
}
}
// postDeliver - the message has been dispatched to be delivered asynchronously (unless the sync delivery flag is set, in which case it would be continue as synchronous delivery)
hooks.trigger("postDeliver", sendEvent, function(err) {
if (err) {
reportError(err,sendEvent);
}
})
}
})
}
module.exports = {
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init: function(runtime) {
nodeCloseTimeout = runtime.settings.nodeCloseTimeout || 15000;
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asyncMessageDelivery = !runtime.settings.runtimeSyncDelivery
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Log = runtime.log;
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Subflow = require("./Subflow");
},
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create: function(parent,global,conf) {
return new Flow(parent,global,conf);
},
Flow: Flow
}