# node-open-protocol **Repository Path**: zyj0021/node-open-protocol ## Basic Information - **Project Name**: node-open-protocol - **Description**: No description available - **Primary Language**: Unknown - **License**: GPL-3.0 - **Default Branch**: master - **Homepage**: None - **GVP Project**: No ## Statistics - **Stars**: 0 - **Forks**: 0 - **Created**: 2025-03-05 - **Last Updated**: 2025-03-05 ## Categories & Tags **Categories**: Uncategorized **Tags**: None ## README # Node Open Protocol A library to interface with Power Tools using the Atlas Copco Open Protocol This node was created by [Smart-Tech](https://netsmarttech.com) as part of the [ST-One](https://netsmarttech.com/page/st-one) project. Documentation: [Open Protocol R 2.8.0](docs/OpenProtocolSpecification_R280.pdf) ## What is Open Protocol? Open Protocol is an interface for building applications for remote control or data subscription of industrial tightening controllers. It's an open specification led by Atlas Copco Industrial Technique AB, though it is implemented by most of the other tightening controller manufacturers. ## What is this node? This node is a [Node.js](https://nodejs.org/) library that implements the Atlas Copco's Open Protocol, being possible establish communication with tightening controllers. This library has several and the most common [MIDs](docs/ImplementedMIDs.md) implemented. ## Features - **Full protocol support**: This library features not only simple MID parsing and serializing, but also establishing and managing the whole lifecycle of an Open Protocol connection. The library user needs only to configure the IP Address and port number and to call the needed functions. All the logic necessary to securely perform the communication, including message queuing, acknowledgement and validation, is performed by the library internally. - **Structured implementation**: The library is implemented as different layers, making protocol logic separation clear and easy. Implementing support for a new MID is as easy as dropping a new file with the respective parser and serializer functions. - **Support for out-of-spec MIDs**: Controllers may have an implementation that can be sligtly out-of-spec, and they would be therefore incompatible with this library. We aim to support these edge cases by disabling the parsing of the payload of selected MIDs, and they're delivered then as the original string as sent by the controller, so that the user can parse it. When sending a message, there's a specific function so the user can directly input the payload as it will be sent to the controller. - **Support for multi-part messages**: In some cases, when a telegram is bigger than the maximum allowed telegram length, there's a mechanism so the tightening controller can split the payload into multiple messages. This library supports such messages, and all the parts are reassebled into a single payload so it can be correctly parsed. - **LinkLayer support with auto-negotiation**: This library supports _Link Layer Acknowledgement_ (as per chapter 3.2.2) by implementing and exchanging MIDs 9997 and 9998. This is auto-negotiated on connection startup, but can be either enforced or fully disabled. - **Generic MID request/subscription**: The use of _Generic Application data request_ (MID 0006) and _Generic Application data (un)subscription_ (MID 0008 and 0009) are supported by this library, as per chapter 3.9.3 and 3.9.4. _Please consider the support of Generic MIDs experimental_ ## How use this node? ### Install `npm install node-open-protocol` ### Instance and connection The variable `options` is optional, in the example below it will be created with default values. ```javascript const openProtocol = require('node-open-protocol'); let options = { // Weather to use LinkLayer Acknowledgement //true: enforce activation //false: enforce deactivation //undefined: auto negotiate linkLayerActivate: undefined, // Weather to user Generic MID request/subscription //true: use generics //false or undefined: don't use generics genericMode: undefined, // How oft we send keep-alive messages (MID 9999), in milliseconds keepAlive: 10000, // Weather the library will append a parameter "_raw" with the Buffer as received from the controller rawData: false, // How long we'll wait for an acknowledge of the controller to a message that we send, in milliseconds timeOut: 3000, // How many times we'll retry to send a message if we don't receive an answer retryTimes: 3, // A list of MIDs for which we'll not parse the payload disableMidParsing: {} } let controllerIp = "127.0.0.1"; let controllerPort = 4545; let op = openProtocol.createClient(controllerPort, controllerIp , options, (data) => { console.log("Connected"); console.log("MID 0002", data); }); ``` or then simply: ```javascript const openProtocol = require('node-open-protocol'); let controllerIp = "127.0.0.1"; let controllerPort = "4545"; let op = openProtocol.createClient(controllerPort, controllerIp, (data) => { // data is the content of MID 0002 console.log("Connected"); console.log("MID 0002", data); }); ``` ### Methods All calls follow a standard structure: ```javascript op.__OPERATION__(midGroup, opts, callback); ``` where: - `__OPERATION__` is either `subscribe`, `unsubscribe`, `request`, or `command`, depending on the category of the intended MID. - `midGroup` is the "name" of the MID being called, as per this list [docs/MIDsGroups.md](docs/MIDsGroups.md). - `opts` may be optional. If it's sent, it will be assigned to the body of the MID. Otherwhise, it will use the standard MID structure. - `callback` is also optionaland if not given, the method will return a `Promise` instead. They may contain any reply data and eventual errors. ```javascript //To MIDs not implemented let opts = { revision: 1, payload: "mid body" //String or buffer } //To MIDs implemented with additional parameters //Example MID 0018 - selectPset let opts = { payload: { parameterSetID: 2 } } ``` #### Subscribe The `subscribe` method is used to subscribe to controller events. The incoming data from these events will be then emitted as events, that can be listened to by using the `on` method. [List of subscribe `midGroup`s](docs/MIDsGroups.md#subscribe-and-unsubcribe) ```javascript op.subscribe(midGroup, opts, callback); ``` ```javascript op.on("lastTightening", (midData) => { // will get the events console.log("Received data on subscribe", midData); }); op.subscribe("lastTightening", (err, data) => { if (err) { console.log("Error on subscribing to 'lastTightening'", err); return; } console.log("Subscribed to 'lastTightening'"); }); ``` #### Unsubscribe The `unsubscribe` method is used to unsubscribe to controller events. The same events from `subscribe` are supported [List of unsubscribe `midGroup`s](docs/MIDsGroups.md#subscribe-and-unsubcribe) ```javascript op.unsubscribe(midGroup, opts, callback); ``` ```javascript op.unsubscribe("lastTightening", (err, data) => { if (err) { console.log("Error on unsubscribing to 'lastTightening'", err); return; } console.log("Unsubscribed to 'lastTightening'"); }); ``` #### Request The `request` method is used to request informations from the controller. `request` MIDs normally have a conterpart MID for the reply containing the requested data, that can here be received in the callback or the Promise. - [List of request `midGroup`s](docs/MIDsGroups.md#request) ```javascript op.request(midGroup, opts, callback); ``` ```javascript op.request("readTimeUpload", (err, data) => { if (err) { console.log("Error getting current time of the controller", err); return; } console.log("Controller clock is", data.payload); }); ``` #### Command The `command` method is used to perform various actions on the controller. - [List of command `midGroup`s](docs/MIDsGroups.md#command) ```javascript op.command(midGroup, opts, callback); ``` - [`midGroup`](docs/MIDsGroups.md#command) ```javascript op.command("disableTool", (err, data) => { if (err) { console.log("Error disabling the tool", err); return; } console.log("Tool disabled successfully"); }); ``` #### SendMid Method responsible for making a generic call, here it is possible to send a not implemented MID. If only `midNumber` is passed, the sent message will only contain default values and `revision = 1`, if you need to pass revision or others parameters use the `opts` parameter. The `callback` function is the function called in cases of error, passing the error as a parameter. The incoming data from these calls will be then emitted as events, that can be listened to by using the `on` method. ```javascript op.sendMid(midNumber, opts, callback); ``` ```javascript op.on("data", (data) => { console.log("Data received", data); }); op.sendMid(1, (err) => { if (err) { console.log("Error", err); return; } }); ``` ### Example This example shows how to perform a subscribe in `lastTightening` and make a tightening call. ```javascript const openProtocol = require('node-open-protocol'); let op = openProtocol.createClient(4545, "127.0.0.1", () => { console.log("Connected!"); op.subscribe("lastTightening", (err, data) => { if (err) { return console.log("Error on Subscribe", err); } startTightening(1, "ASDEDCUHBG34563EDFRCVGFR6"); }); }); op.on("error", (error) => { console.log("Error on OpenProtocol", error); }); op.on("lastTightening", (midData) => { console.log("Tightening received!", JSON.stringify(midData)); }); function startTightening(parameterSetID, numberVIN) { // --> Abort Job --> Select Pset --> Set VehicleId --> Disable Tool --> Enable Tool op.command("abortJob", (err) => { if (err) { return console.log("Fail on abortJob", err); } op.command("selectPset", { payload: { parameterSetID } }, (err) => { if (err) { return console.log("Fail on selectPset", err); } op.command("vinDownload", { payload: { numberVIN } }, (err) => { if (err) { return console.log("Fail on vinDownload", err); } op.command("disableTool", (err, data) => { if (err) { return console.log("Fail on disableTool", err); } op.command("enableTool", (err, data) => { if (err) { return console.log("Fail on enableTool", err); } console.log("waiting for the operator to tighten"); }); }); }); }); }); } ``` Or then with async/await functions: ```javascript const openProtocol = require('node-open-protocol'); async function onClientConnected() { console.log("Connected!"); // subscribe to tightening results await op.subscribe("lastTightening"); op.on("lastTightening", result => { console.log("Hooray! Result received!", result); }); // start tigtening process // --> Abort Job --> Select Pset --> Set VehicleId --> Disable Tool --> Enable Tool let pset = 1; let vin = "ASDEDCUHBG34563EDFRCVGFR6"; await op.command("abortJob"); await op.command("selectPset", { payload: { parameterSetID: pset } }); await op.command("vinDownload", { payload: { numberVIN: vin } }); await op.command("disableTool"); await op.command("enableTool"); console.log(`Tightening started on VIN [${vin}] with pset [${pset}]`); } let op = openProtocol.createClient(4545, "127.0.0.1", data => { onClientConnected().catch(err => { console.log("¡Ay caramba!", err.toString()); }); }); ``` ## Controllers supported The marked controllers have been tested to some degree, so we can assure basic communication support. - [x] Atlas Copco PowerFocus4000 - [x] Atlas Copco PowerFocus6000 - [x] Atlas Copco PowerMacs - [x] Stanley Alpha 4 Please contact us by sending an e-mail to netsmarttech@netsmarttech.com if you'd like to have your controller tested and validated by us and to appear on this list. ## Disclaimer - This software is not affiliated with Atlas Copco in any way. PowerFocus4000, PowerFocus6000, and PowerMacs are trademarks of Atlas Copco AB. - This software is not affiliated with Stanley in any way. Alpha 4 are trademarks of Stanley Black & Decker, Inc. ## Contributing For contributing see instructions in [CONTRIBUTING.md](CONTRIBUTING.md) ## License Copyright: (c) 2018-2020, Smart-Tech GNU General Public License v3.0+ (see [LICENSE](LICENSE) or https://www.gnu.org/licenses/gpl-3.0.txt)