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ts-bacnet

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The BACnet protocol library written in pure JavaScript.

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"use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", { value: true }); exports.decode = exports.encode = void 0; const baAsn1 = __importStar(require("../asn1")); const baEnum = __importStar(require("../enum")); const encode = (buffer, subscriberProcessId, initiatingDeviceId, monitoredObjectId, timeRemaining, values) => { baAsn1.encodeContextUnsigned(buffer, 0, subscriberProcessId); baAsn1.encodeContextObjectId(buffer, 1, baEnum.ObjectType.DEVICE, initiatingDeviceId); baAsn1.encodeContextObjectId(buffer, 2, monitoredObjectId.type, monitoredObjectId.instance); baAsn1.encodeContextUnsigned(buffer, 3, timeRemaining); baAsn1.encodeOpeningTag(buffer, 4); values.forEach((value) => { baAsn1.encodeContextEnumerated(buffer, 0, value.property.id); if (value.property.index === baEnum.ASN1_ARRAY_ALL) { baAsn1.encodeContextUnsigned(buffer, 1, value.property.index); } baAsn1.encodeOpeningTag(buffer, 2); value.value.forEach((v) => { baAsn1.bacappEncodeApplicationData(buffer, v); }); baAsn1.encodeClosingTag(buffer, 2); if (value.priority === baEnum.ASN1_NO_PRIORITY) { baAsn1.encodeContextUnsigned(buffer, 3, value.priority); } // TODO: Handle to too large telegrams -> APDU limit }); baAsn1.encodeClosingTag(buffer, 4); }; exports.encode = encode; const decode = (buffer, offset, apduLen) => { let len = 0; let result; let decodedValue; if (!baAsn1.decodeIsContextTag(buffer, offset + len, 0)) { return undefined; } result = baAsn1.decodeTagNumberAndValue(buffer, offset + len); len += result.len; decodedValue = baAsn1.decodeUnsigned(buffer, offset + len, result.value); len += decodedValue.len; const subscriberProcessId = decodedValue.value; if (!baAsn1.decodeIsContextTag(buffer, offset + len, 1)) { return undefined; } result = baAsn1.decodeTagNumberAndValue(buffer, offset + len); len += result.len; decodedValue = baAsn1.decodeObjectId(buffer, offset + len); len += decodedValue.len; const initiatingDeviceId = { type: decodedValue.objectType, instance: decodedValue.instance, }; if (!baAsn1.decodeIsContextTag(buffer, offset + len, 2)) { return undefined; } result = baAsn1.decodeTagNumberAndValue(buffer, offset + len); len += result.len; decodedValue = baAsn1.decodeObjectId(buffer, offset + len); len += decodedValue.len; const monitoredObjectId = { type: decodedValue.objectType, instance: decodedValue.instance, }; if (!baAsn1.decodeIsContextTag(buffer, offset + len, 3)) { return undefined; } result = baAsn1.decodeTagNumberAndValue(buffer, offset + len); len += result.len; decodedValue = baAsn1.decodeUnsigned(buffer, offset + len, result.value); len += decodedValue.len; const timeRemaining = decodedValue.value; if (!baAsn1.decodeIsOpeningTagNumber(buffer, offset + len, 4)) { return undefined; } len++; const values = []; while (apduLen - len > 1 && !baAsn1.decodeIsClosingTagNumber(buffer, offset + len, 4)) { let newEntry = {}; newEntry.property = {}; if (!baAsn1.decodeIsContextTag(buffer, offset + len, 0)) { return undefined; } result = baAsn1.decodeTagNumberAndValue(buffer, offset + len); len += result.len; decodedValue = baAsn1.decodeEnumerated(buffer, offset + len, result.value); len += decodedValue.len; newEntry.property.id = decodedValue.value; if (baAsn1.decodeIsContextTag(buffer, offset + len, 1)) { result = baAsn1.decodeTagNumberAndValue(buffer, offset + len); len += result.len; decodedValue = baAsn1.decodeUnsigned(buffer, offset + len, result.value); len += decodedValue.len; newEntry.property.index = decodedValue.value; } else { newEntry.property.index = baEnum.ASN1_ARRAY_ALL; } if (!baAsn1.decodeIsOpeningTagNumber(buffer, offset + len, 2)) { return undefined; } len++; const properties = []; while (apduLen - len > 1 && !baAsn1.decodeIsClosingTagNumber(buffer, offset + len, 2)) { decodedValue = baAsn1.bacappDecodeApplicationData(buffer, offset + len, apduLen + offset, monitoredObjectId.type, newEntry.property.id); if (!decodedValue) { return undefined; } len += decodedValue.len; delete decodedValue.len; properties.push(decodedValue); } newEntry.value = properties; len++; if (baAsn1.decodeIsContextTag(buffer, offset + len, 3)) { result = baAsn1.decodeTagNumberAndValue(buffer, offset + len); len += result.len; decodedValue = baAsn1.decodeUnsigned(buffer, offset + len, result.value); len += decodedValue.len; newEntry.priority = decodedValue.value; } else { newEntry.priority = baEnum.ASN1_NO_PRIORITY; } values.push(newEntry); } return { len, subscriberProcessId, initiatingDeviceId, monitoredObjectId, timeRemaining, values, }; }; exports.decode = decode;