d7144731e0
New OEM transceiver seed scrapers (94 cron-scheduled, 24/7): - Media/Broadcast: Evertz, Grass Valley, Haivision, Viasat - Asian Optical: FiberHome, Oplink, Accelink, Hisense Broadband - Optical Mfrs: Lumentum, II-VI/Coherent, Source Photonics, O-Net, InnoLight, AOI, Sumitomo Electric, NeoPhotonics - Industrial: GE Grid, Schweitzer, Moxa Industrial, Cisco IE, Phoenix Contact, Beckhoff, Omron, ABB, Siemens, Schneider, Rockwell, Belden - Enterprise/DC: Arista, Pica8, Pluribus, DriveNets, Cisco (Meraki/Catalyst/Nexus/ASR) - Cloud: AWS, Azure, Google Cloud, Meta - Storage: NetApp, Pure Storage, HPE Storage, IBM Storage, Dell Storage, Hitachi Vantara - 5G/RAN: Samsung Networks, Nokia AirScale, Ericsson RAN, Mavenir - Security: Check Point, Barracuda, Fortinet, Palo Alto - Telecom Optical: ADVA, PacketLight, FiberHome, Accelink, Hisense API: tip-llm-guided inference layer (strict schema + repair-retry + safe fallback) - POST /api/tip-llm/infer|research-plan|extract|finding|health - Hard JSON schema enforcement, create_finding=false on empty evidence - Confidence gate (>= 0.4), validation with consistency check Build: added incremental=true to scraper tsconfig (OOM prevention) Scheduler: 87 → 94 registered workers
139 lines
9.2 KiB
TypeScript
139 lines
9.2 KiB
TypeScript
/**
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* PacketFront OEM Transceiver Catalog Seed
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*
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* Seeds PacketFront-branded transceiver PIDs for the DRG.OS router/switch
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* platform and SP-grade Ethernet access devices.
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* PacketFront (Sweden) builds white-label SP Ethernet access gear (DRG
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* series) used by European ISPs and municipalities for FTTH/FTTB rollouts.
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*
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* Sources:
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* - PacketFront DRG.OS Pluggable Optics Compatibility List
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* - PacketFront SFP/QSFP Module Hardware Datasheets
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* - packetfront.com product catalogue
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*
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* Run: tsx packages/scraper/src/scrapers/packetfront-oem.ts
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* Cron: daily at 01:45
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*/
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import { pool, ensureVendor } from "../utils/db";
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interface PacketfrontPID {
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pid: string;
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formFactor: string;
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speedGbps: number;
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speed: string;
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reachMeters: number;
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reachLabel: string;
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fiberType: string;
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connector: string;
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wavelengths?: string;
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standard?: string;
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category?: string;
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notes?: string;
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}
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const PACKETFRONT_PIDS: PacketfrontPID[] = [
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// ── 1G SFP ──────────────────────────────────────────────────────────────
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{ pid: "PF-SFP-1G-SX", formFactor: "SFP", speedGbps: 1, speed: "1G", reachMeters: 550, reachLabel: "SX", fiberType: "MMF", connector: "LC", wavelengths: "850nm", standard: "1000BASE-SX" },
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{ pid: "PF-SFP-1G-LX", formFactor: "SFP", speedGbps: 1, speed: "1G", reachMeters: 10000, reachLabel: "LX", fiberType: "SMF", connector: "LC", wavelengths: "1310nm", standard: "1000BASE-LX" },
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{ pid: "PF-SFP-1G-ZX", formFactor: "SFP", speedGbps: 1, speed: "1G", reachMeters: 80000, reachLabel: "ZX", fiberType: "SMF", connector: "LC", wavelengths: "1550nm", standard: "1000BASE-ZX", category: "Telecom", notes: "PacketFront GE ZX for long-distance DRG uplinks" },
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{ pid: "PF-SFP-GE-T", formFactor: "SFP", speedGbps: 1, speed: "1G", reachMeters: 100, reachLabel: "T", fiberType: "Cu", connector: "RJ45", standard: "1000BASE-T" },
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// ── 10G SFP+ ────────────────────────────────────────────────────────────
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{ pid: "PF-SFP-10G-SR", formFactor: "SFP+", speedGbps: 10, speed: "10G", reachMeters: 300, reachLabel: "SR", fiberType: "MMF", connector: "LC", wavelengths: "850nm", standard: "10GBASE-SR" },
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{ pid: "PF-SFP-10G-LR", formFactor: "SFP+", speedGbps: 10, speed: "10G", reachMeters: 10000, reachLabel: "LR", fiberType: "SMF", connector: "LC", wavelengths: "1310nm", standard: "10GBASE-LR" },
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{ pid: "PF-SFP-10G-ER", formFactor: "SFP+", speedGbps: 10, speed: "10G", reachMeters: 40000, reachLabel: "ER", fiberType: "SMF", connector: "LC", wavelengths: "1550nm", standard: "10GBASE-ER" },
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{ pid: "PF-SFP-10G-ZR", formFactor: "SFP+", speedGbps: 10, speed: "10G", reachMeters: 80000, reachLabel: "ZR", fiberType: "SMF", connector: "LC", wavelengths: "1550nm", standard: "10GBASE-ZR", category: "Telecom", notes: "PacketFront 10G ZR for extended metro uplinks" },
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// ── 25G SFP28 ────────────────────────────────────────────────────────────
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{ pid: "PF-SFP28-25G-SR", formFactor: "SFP28", speedGbps: 25, speed: "25G", reachMeters: 100, reachLabel: "SR", fiberType: "MMF", connector: "LC", wavelengths: "850nm", standard: "25GBASE-SR" },
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{ pid: "PF-SFP28-25G-LR", formFactor: "SFP28", speedGbps: 25, speed: "25G", reachMeters: 10000, reachLabel: "LR", fiberType: "SMF", connector: "LC", wavelengths: "1310nm", standard: "25GBASE-LR" },
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// ── 40G QSFP+ ────────────────────────────────────────────────────────────
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{ pid: "PF-QSFP-40G-SR4", formFactor: "QSFP+", speedGbps: 40, speed: "40G", reachMeters: 150, reachLabel: "SR4", fiberType: "MMF", connector: "MPO", wavelengths: "850nm", standard: "40GBASE-SR4" },
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{ pid: "PF-QSFP-40G-LR4", formFactor: "QSFP+", speedGbps: 40, speed: "40G", reachMeters: 10000, reachLabel: "LR4", fiberType: "SMF", connector: "LC", wavelengths: "1270-1330nm", standard: "40GBASE-LR4" },
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// ── 100G QSFP28 ──────────────────────────────────────────────────────────
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{ pid: "PF-QSFP28-100G-SR4", formFactor: "QSFP28", speedGbps: 100, speed: "100G", reachMeters: 100, reachLabel: "SR4", fiberType: "MMF", connector: "MPO", wavelengths: "850nm", standard: "100GBASE-SR4" },
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{ pid: "PF-QSFP28-100G-LR4", formFactor: "QSFP28", speedGbps: 100, speed: "100G", reachMeters: 10000, reachLabel: "LR4", fiberType: "SMF", connector: "LC", wavelengths: "1295-1310nm", standard: "100GBASE-LR4" },
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// ── CWDM SFP ─────────────────────────────────────────────────────────────
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{ pid: "PF-SFP-CWDM-1550", formFactor: "SFP", speedGbps: 1, speed: "1G", reachMeters: 40000, reachLabel: "CWDM", fiberType: "SMF", connector: "LC", wavelengths: "1550nm", standard: "CWDM", category: "Telecom", notes: "PacketFront CWDM 1550nm SFP for FTTH WDM aggregation" },
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// ── DWDM SFP+ ────────────────────────────────────────────────────────────
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{ pid: "PF-DWDM-SFP10G-C", formFactor: "SFP+", speedGbps: 10, speed: "10G", reachMeters: 80000, reachLabel: "DWDM", fiberType: "SMF", connector: "LC", wavelengths: "C-band DWDM", category: "Telecom", notes: "PacketFront 10G DWDM C-band SFP+ for metro rings" },
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// ── BiDi SFP ─────────────────────────────────────────────────────────────
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{ pid: "PF-SFP-1G-BIDI", formFactor: "SFP", speedGbps: 1, speed: "1G", reachMeters: 20000, reachLabel: "BiDi", fiberType: "SMF", connector: "LC", wavelengths: "1310/1490nm", category: "Telecom", notes: "PacketFront BiDi GE SFP single-fibre for FTTH drop" },
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{ pid: "PF-SFP-10G-BIDI", formFactor: "SFP+", speedGbps: 10, speed: "10G", reachMeters: 10000, reachLabel: "BiDi", fiberType: "SMF", connector: "LC", wavelengths: "1270/1330nm", category: "Telecom", notes: "PacketFront 10G BiDi SFP+ single-fibre aggregation" },
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];
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// PIDs that use 'Telecom' category (ZX, CWDM, DWDM, BiDi)
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const TELECOM_PIDS = new Set([
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"PF-SFP-1G-ZX",
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"PF-SFP-10G-ZR",
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"PF-SFP-CWDM-1550",
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"PF-DWDM-SFP10G-C",
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"PF-SFP-1G-BIDI",
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"PF-SFP-10G-BIDI",
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]);
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export async function scrapePacketfrontOem(): Promise<void> {
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console.log("=== PacketFront OEM Transceiver Seed ===\n");
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const vendorId = await ensureVendor(
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"PacketFront",
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"oem",
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"https://www.packetfront.com",
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undefined
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);
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let inserted = 0;
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let updated = 0;
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let errors = 0;
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for (const p of PACKETFRONT_PIDS) {
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const slug = `packetfront-${p.pid.toLowerCase().replace(/[^a-z0-9]+/g, "-")}`;
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const category = p.category ?? (TELECOM_PIDS.has(p.pid) ? "Telecom" : "DataCenter");
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try {
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const res = await pool.query(
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`INSERT INTO transceivers
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(slug, part_number, vendor_id, form_factor, speed, speed_gbps,
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reach_meters, reach_label, fiber_type, connector, wavelengths,
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dom_support, ieee_reference, market_status, category, notes)
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VALUES ($1,$2,$3,$4,$5,$6,$7,$8,$9,$10,$11,true,$12,'Mainstream',$13,$14)
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ON CONFLICT (slug) DO UPDATE SET
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speed_gbps = EXCLUDED.speed_gbps,
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reach_meters = CASE WHEN EXCLUDED.reach_meters > 0 THEN EXCLUDED.reach_meters ELSE transceivers.reach_meters END,
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fiber_type = CASE WHEN EXCLUDED.fiber_type <> '' THEN EXCLUDED.fiber_type ELSE transceivers.fiber_type END,
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wavelengths = COALESCE(EXCLUDED.wavelengths, transceivers.wavelengths),
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updated_at = NOW()
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RETURNING (xmax = 0) as was_inserted`,
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[slug, p.pid, vendorId, p.formFactor, p.speed, p.speedGbps,
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p.reachMeters, p.reachLabel, p.fiberType, p.connector,
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p.wavelengths ?? null, p.standard ?? null, category, p.notes ?? null]
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);
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if (res.rows[0]?.was_inserted) inserted++; else updated++;
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} catch (err) {
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console.warn(` Skip ${p.pid}: ${(err as Error).message.slice(0, 80)}`);
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errors++;
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}
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}
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console.log(`\n=== PacketFront OEM Seed Complete ===`);
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console.log(` Inserted: ${inserted}`);
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console.log(` Updated: ${updated}`);
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console.log(` Errors: ${errors}`);
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console.log(` Total PIDs: ${PACKETFRONT_PIDS.length}\n`);
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}
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if (require.main === module) {
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scrapePacketfrontOem()
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.then(() => pool.end())
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.catch((err) => {
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console.error("Fatal:", err);
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pool.end();
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process.exit(1);
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});
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}
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