MCP.directory

maintainx-reference-architecture

by jeremylongshore
0
0
Source

Production-grade architecture patterns for MaintainX integrations. Use when designing system architecture, planning integrations, or building enterprise-scale MaintainX solutions. Trigger with phrases like "maintainx architecture", "maintainx design", "maintainx system design", "maintainx enterprise", "maintainx patterns".

Install

mkdir -p .claude/skills/maintainx-reference-architecture && curl -L -o skill.zip "https://mcp.directory/api/skills/download/8276" && unzip -o skill.zip -d .claude/skills/maintainx-reference-architecture && rm skill.zip

Installs to .claude/skills/maintainx-reference-architecture

About this skill

MaintainX Reference Architecture

Overview

Production-grade architecture patterns for building scalable, maintainable integrations between MaintainX and enterprise systems (ERP, SCADA, data warehouses).

Prerequisites

  • Understanding of distributed systems
  • Cloud platform experience (GCP, AWS, or Azure)
  • MaintainX API familiarity

Instructions

Step 1: Event-Driven Sync Architecture

The recommended architecture for most MaintainX integrations. Uses webhooks for real-time updates and scheduled jobs for reconciliation.

MaintainX API ──webhook──→ Cloud Run ──→ Pub/Sub ──→ Cloud Functions
                                              │
                                              ├──→ BigQuery (analytics)
                                              ├──→ ERP System (SAP, Oracle)
                                              └──→ Notification Service

// src/architecture/event-driven.ts
import express from 'express';
import { PubSub } from '@google-cloud/pubsub';

const app = express();
const pubsub = new PubSub();
const topic = pubsub.topic('maintainx-events');

// Webhook receiver publishes to Pub/Sub
app.post('/webhooks/maintainx', async (req, res) => {
  const { event, data } = req.body;

  await topic.publishMessage({
    data: Buffer.from(JSON.stringify({ event, data })),
    attributes: { event, resourceId: String(data.id) },
  });

  res.status(200).json({ status: 'queued' });
});

// Subscriber processes events asynchronously
const subscription = pubsub.subscription('maintainx-events-sub');
subscription.on('message', async (message) => {
  const { event, data } = JSON.parse(message.data.toString());

  switch (event) {
    case 'workorder.completed':
      await syncToERP(data);
      await updateAnalytics(data);
      break;
    case 'workorder.created':
      if (data.priority === 'HIGH') {
        await sendUrgentNotification(data);
      }
      break;
  }

  message.ack();
});

Step 2: Bi-Directional Sync Gateway

For integrating MaintainX with ERP systems (SAP, Oracle) where changes flow both ways.

ERP (SAP/Oracle) ←──→ Sync Gateway ←──→ MaintainX API
                          │
                    Conflict Resolution
                    + Audit Trail
                    + Sync State DB

// src/architecture/sync-gateway.ts

interface SyncRecord {
  externalId: string;     // ERP system ID
  maintainxId: number;    // MaintainX ID
  lastSyncAt: string;
  syncDirection: 'inbound' | 'outbound' | 'bidirectional';
  hash: string;           // Content hash for change detection
}

class SyncGateway {
  constructor(
    private maintainx: MaintainXClient,
    private erp: ERPClient,
    private db: SyncStateDB,
  ) {}

  // MaintainX → ERP
  async syncToERP(workOrder: any) {
    const existing = await this.db.findByMaintainxId(workOrder.id);

    if (existing && this.hash(workOrder) === existing.hash) {
      return; // No change, skip
    }

    const erpRecord = this.mapToERP(workOrder);
    if (existing) {
      await this.erp.update(existing.externalId, erpRecord);
    } else {
      const created = await this.erp.create(erpRecord);
      await this.db.create({
        externalId: created.id,
        maintainxId: workOrder.id,
        lastSyncAt: new Date().toISOString(),
        syncDirection: 'outbound',
        hash: this.hash(workOrder),
      });
    }
  }

  // ERP → MaintainX
  async syncFromERP(erpRecord: any) {
    const existing = await this.db.findByExternalId(erpRecord.id);
    const woData = this.mapFromERP(erpRecord);

    if (existing) {
      await this.maintainx.updateWorkOrder(existing.maintainxId, woData);
    } else {
      const created = await this.maintainx.createWorkOrder(woData);
      await this.db.create({
        externalId: erpRecord.id,
        maintainxId: created.id,
        lastSyncAt: new Date().toISOString(),
        syncDirection: 'inbound',
        hash: this.hash(created),
      });
    }
  }

  private mapToERP(wo: any) {
    return {
      title: wo.title,
      status: this.mapStatus(wo.status),
      priority: wo.priority,
      completedAt: wo.completedAt,
    };
  }

  private mapFromERP(erp: any) {
    return {
      title: erp.description,
      priority: erp.urgency === 'HIGH' ? 'HIGH' : 'MEDIUM',
    };
  }

  private mapStatus(status: string) {
    const map: Record<string, string> = {
      OPEN: 'PLANNED',
      IN_PROGRESS: 'ACTIVE',
      COMPLETED: 'FINISHED',
      CLOSED: 'ARCHIVED',
    };
    return map[status] || 'UNKNOWN';
  }

  private hash(obj: any): string {
    return require('crypto').createHash('md5')
      .update(JSON.stringify(obj)).digest('hex');
  }
}

Step 3: Analytics Data Pipeline

MaintainX API ──scheduled──→ Cloud Functions ──→ BigQuery
                                                    │
                                              Looker / Metabase
                                                    │
                                              KPI Dashboards:
                                              - MTTR (Mean Time to Repair)
                                              - PM Compliance %
                                              - Work Order Backlog
                                              - Asset Downtime

// src/architecture/analytics-pipeline.ts

interface MaintenanceKPIs {
  mttr: number;           // Mean Time to Repair (hours)
  pmCompliance: number;   // Preventive Maintenance compliance %
  backlog: number;        // Open work orders count
  completionRate: number; // Orders completed / orders created
}

async function calculateKPIs(client: MaintainXClient): Promise<MaintenanceKPIs> {
  const completed = await paginate(
    (cursor) => client.getWorkOrders({ status: 'COMPLETED', limit: 100, cursor }),
    'workOrders',
  );

  const open = await paginate(
    (cursor) => client.getWorkOrders({ status: 'OPEN', limit: 100, cursor }),
    'workOrders',
  );

  // MTTR: Average time from OPEN to COMPLETED
  const repairTimes = completed
    .filter((wo: any) => wo.createdAt && wo.completedAt)
    .map((wo: any) => {
      const created = new Date(wo.createdAt).getTime();
      const completed = new Date(wo.completedAt).getTime();
      return (completed - created) / 3600000; // hours
    });

  const mttr = repairTimes.length > 0
    ? repairTimes.reduce((a: number, b: number) => a + b, 0) / repairTimes.length
    : 0;

  // PM Compliance
  const pmOrders = completed.filter((wo: any) =>
    wo.categories?.includes('PREVENTIVE'),
  );
  const allPM = [...pmOrders, ...open.filter((wo: any) =>
    wo.categories?.includes('PREVENTIVE'),
  )];
  const pmCompliance = allPM.length > 0 ? (pmOrders.length / allPM.length) * 100 : 100;

  return {
    mttr: Math.round(mttr * 10) / 10,
    pmCompliance: Math.round(pmCompliance),
    backlog: open.length,
    completionRate: completed.length / (completed.length + open.length) * 100,
  };
}

Step 4: Multi-Site Architecture

Site A (Plant)           Site B (Warehouse)        Site C (Office)
  └── Local Agent           └── Local Agent            └── Local Agent
        │                         │                          │
        └─────────── Central Hub (Cloud Run) ────────────────┘
                          │
                    MaintainX API
                    (Org-level access)

// Central hub routing requests by site
const siteConfigs = {
  'plant-austin': { orgId: 'org-1', apiKey: process.env.MX_KEY_PLANT },
  'warehouse-dallas': { orgId: 'org-2', apiKey: process.env.MX_KEY_WAREHOUSE },
  'office-houston': { orgId: 'org-3', apiKey: process.env.MX_KEY_OFFICE },
};

function getClientForSite(siteId: string): MaintainXClient {
  const config = siteConfigs[siteId as keyof typeof siteConfigs];
  if (!config) throw new Error(`Unknown site: ${siteId}`);
  return new MaintainXClient(config.apiKey, config.orgId);
}

Output

  • Event-driven architecture with Pub/Sub for decoupled processing
  • Bi-directional sync gateway with conflict resolution and audit trail
  • Analytics pipeline calculating maintenance KPIs (MTTR, PM compliance)
  • Multi-site architecture with per-site API key isolation

Error Handling

PatternFailure ModeMitigation
Event-drivenPub/Sub delivery failureDead letter queue, retry policy
Bi-directional syncConflict on same recordLast-write-wins or manual resolution
Analytics pipelineIncomplete data fetchRetry with backfill, validate counts
Multi-siteOne site API key expiredIndependent health checks per site

Resources

Next Steps

For multi-environment setup, see maintainx-multi-env-setup.

Examples

SCADA integration (pulling sensor data into MaintainX work orders):

// Auto-create work order when equipment sensor exceeds threshold
async function handleSensorAlert(sensorId: string, value: number, threshold: number) {
  const asset = await findAssetBySensorId(sensorId);

  await client.createWorkOrder({
    title: `Sensor Alert: ${asset.name} - ${sensorId} exceeded threshold`,
    description: `Value: ${value} (threshold: ${threshold}). Auto-generated from SCADA.`,
    priority: value > threshold * 1.5 ? 'HIGH' : 'MEDIUM',
    assetId: asset.maintainxId,
    categories: ['CORRECTIVE'],
  });
}

More by jeremylongshore

View all skills by jeremylongshore

svg-icon-generator

jeremylongshore

Svg Icon Generator - Auto-activating skill for Visual Content. Triggers on: svg icon generator, svg icon generator Part of the Visual Content skill category.

7824

automating-mobile-app-testing

jeremylongshore

This skill enables automated testing of mobile applications on iOS and Android platforms using frameworks like Appium, Detox, XCUITest, and Espresso. It generates end-to-end tests, sets up page object models, and handles platform-specific elements. Use this skill when the user requests mobile app testing, test automation for iOS or Android, or needs assistance with setting up device farms and simulators. The skill is triggered by terms like "mobile testing", "appium", "detox", "xcuitest", "espresso", "android test", "ios test".

13615

d2-diagram-creator

jeremylongshore

D2 Diagram Creator - Auto-activating skill for Visual Content. Triggers on: d2 diagram creator, d2 diagram creator Part of the Visual Content skill category.

3114

performing-penetration-testing

jeremylongshore

This skill enables automated penetration testing of web applications. It uses the penetration-tester plugin to identify vulnerabilities, including OWASP Top 10 threats, and suggests exploitation techniques. Use this skill when the user requests a "penetration test", "pentest", "vulnerability assessment", or asks to "exploit" a web application. It provides comprehensive reporting on identified security flaws.

4311

performing-security-audits

jeremylongshore

This skill allows Claude to conduct comprehensive security audits of code, infrastructure, and configurations. It leverages various tools within the security-pro-pack plugin, including vulnerability scanning, compliance checking, cryptography review, and infrastructure security analysis. Use this skill when a user requests a "security audit," "vulnerability assessment," "compliance review," or any task involving identifying and mitigating security risks. It helps to ensure code and systems adhere to security best practices and compliance standards.

109

designing-database-schemas

jeremylongshore

Design and visualize efficient database schemas, normalize data, map relationships, and generate ERD diagrams and SQL statements.

1128

You might also like

flutter-development

aj-geddes

Build beautiful cross-platform mobile apps with Flutter and Dart. Covers widgets, state management with Provider/BLoC, navigation, API integration, and material design.

9521,094

drawio-diagrams-enhanced

jgtolentino

Create professional draw.io (diagrams.net) diagrams in XML format (.drawio files) with integrated PMP/PMBOK methodologies, extensive visual asset libraries, and industry-standard professional templates. Use this skill when users ask to create flowcharts, swimlane diagrams, cross-functional flowcharts, org charts, network diagrams, UML diagrams, BPMN, project management diagrams (WBS, Gantt, PERT, RACI), risk matrices, stakeholder maps, or any other visual diagram in draw.io format. This skill includes access to custom shape libraries for icons, clipart, and professional symbols.

846846

ui-ux-pro-max

nextlevelbuilder

"UI/UX design intelligence. 50 styles, 21 palettes, 50 font pairings, 20 charts, 8 stacks (React, Next.js, Vue, Svelte, SwiftUI, React Native, Flutter, Tailwind). Actions: plan, build, create, design, implement, review, fix, improve, optimize, enhance, refactor, check UI/UX code. Projects: website, landing page, dashboard, admin panel, e-commerce, SaaS, portfolio, blog, mobile app, .html, .tsx, .vue, .svelte. Elements: button, modal, navbar, sidebar, card, table, form, chart. Styles: glassmorphism, claymorphism, minimalism, brutalism, neumorphism, bento grid, dark mode, responsive, skeuomorphism, flat design. Topics: color palette, accessibility, animation, layout, typography, font pairing, spacing, hover, shadow, gradient."

571699

godot

bfollington

This skill should be used when working on Godot Engine projects. It provides specialized knowledge of Godot's file formats (.gd, .tscn, .tres), architecture patterns (component-based, signal-driven, resource-based), common pitfalls, validation tools, code templates, and CLI workflows. The `godot` command is available for running the game, validating scripts, importing resources, and exporting builds. Use this skill for tasks involving Godot game development, debugging scene/resource files, implementing game systems, or creating new Godot components.

548492

nano-banana-pro

garg-aayush

Generate and edit images using Google's Nano Banana Pro (Gemini 3 Pro Image) API. Use when the user asks to generate, create, edit, modify, change, alter, or update images. Also use when user references an existing image file and asks to modify it in any way (e.g., "modify this image", "change the background", "replace X with Y"). Supports both text-to-image generation and image-to-image editing with configurable resolution (1K default, 2K, or 4K for high resolution). DO NOT read the image file first - use this skill directly with the --input-image parameter.

673466

fastapi-templates

wshobson

Create production-ready FastAPI projects with async patterns, dependency injection, and comprehensive error handling. Use when building new FastAPI applications or setting up backend API projects.

514280

Related MCP Servers

Browse all servers
PerplexityPerplexity

Empower your workflows with Perplexity Ask MCP Server—seamless integration of AI research tools for real-time, accurate

1,9990 tools
Read MySQLRead MySQL

Securely join MySQL databases with Read MySQL for read-only query access and in-depth data analysis.

1,2940 tools
Context PortalContext Portal

Context Portal: Manage project memory with a database-backed system for decisions, tracking, and semantic search via a k

7530 tools
Dot AI (Kubernetes Deployment)Dot AI (Kubernetes Deployment)

Dot AI (Kubernetes Deployment) streamlines and automates Kubernetes deployment with intelligent guidance and vector sear

2960 tools
Claude HistorianClaude Historian

Claude Historian is a free AI search engine offering advanced search, file context, and solution discovery in Claude Cod

2167 tools
Claude HistorianClaude Historian

Claude Historian: AI-powered search for Claude Code conversations—find files, errors, context, and sessions via JSONL pa

2168 tools

Stay ahead of the MCP ecosystem

Get weekly updates on new skills and servers.