TL;DR
SaaS woke as much as a silent auto‑scale from M20 → M60, including 20 % to their cloud invoice in a single day. In a frantic 48‑hour dash we:
- flattened N + 1 waterfalls with
$lookup, - tamed unbounded cursors with projection,
restrict()and TTL, - break up 16 MB “jumbo” docs into lean metadata + GridFS blobs,
- reordered a handful of sleepy indexes
And watched $15 284 → $3 210/mo (‑79 %) whereas p95 latency toppled from 1.9 s → 140 ms.
All on a plain reproduction set.
Step 1: The Day the Bill Went Supernova
02:17 a.m. — The on‑name telephone lit up like a pinball machine. Atlas had quietly sizzling‑swapped our trusty M20 for a maxed‑out M60. Slack stuffed with 🟥 BILL SHOCK alerts whereas Grafana’s purple‑lined graphs painted a horror film in actual time.
“Finance says the brand new spend wipes out 9 months of runway. We want a repair earlier than stand‑up.”
— COO, 02:38
Half‑awake, the engineer cracked open the profiler. Three culprits leapt off the display:
- Question waterfall — each order API name triggered an additional fetch for its strains. 1 000 orders? 1 001 spherical‑journeys.
- Fireplace‑hose cursor — a click on‑stream endpoint streamed 30 months of occasions on each web page load.
- Jumbo docs — 16 MB invoices (full with PDFs) blew the cache to bits and again.
Atlas tried to assist by throwing {hardware} on the fireplace—upgrading from 64 GB RAM to 320 GB, boosting IOPS, and, in fact, boosting the invoice.
By breakfast, the conflict‑room guidelines have been clear: reduce 70 % of spend in 48 hours, zero downtime, no schema nukes. The play‑by‑play begins under.
Step 2: Three Form Crimes & Easy methods to Repair Them
2.1 N + 1 Question Tsunami
Symptom: For every order the API fired a second question for its line objects. 1 000 orders ⇒ 1 001 spherical‑journeys.
// Previous (painful)
const orders = await db.orders.discover({ userId }).toArray();
for (const o of orders) {
o.strains = await db.orderLines.discover({ orderId: o._id }).toArray();
}Hidden charges: 1 000 index walks, 1 000 TLS handshakes, 1 000 context switches.
Treatment (4 strains):
// New (single go)
db.orders.combination([
{ $match: { userId } },
{ $lookup: {
from: 'orderLines',
localField: '_id',
foreignField: 'orderId',
as: 'lines'
} },
{ $project: { lines: 1, total: 1, ts: 1 } }
]);Latency p95: 2 300 ms → 160 ms. Learn ops: 101 → 1 (‑99 %).
2.2 Unbounded Question Fireplace‑Hose
Symptom: One endpoint streamed 30 months of click on historical past in a single cursor.
// Earlier than
const occasions = db.occasions.discover({ userId }).toArray();Repair: Cap the window and mission solely rendered fields.
const occasions = db.occasions.discover(
{
userId,
ts: { $gte: new Date(Date.now() - 30*24*3600*1000) }
},
{ _id: 0, ts: 1, web page: 1, ref: 1 }
).type({ ts: -1 }).restrict(1_000);Then let Mongo prune for you:
// 90‑day TTL
db.occasions.createIndex({ ts: 1 }, { expireAfterSeconds: 90*24*3600 });A fintech consumer clipped 72 % off their storage in a single day utilizing nothing however TTL.
2.3 Jumbo Doc Cash Pit
Something above 256 KB already strains cache strains; one assortment saved multi‑MB invoices full with PDFs and 1 200‑row histories.
Answer: break up by entry sample—sizzling metadata in invoices , chilly BLOBs in S3/GridFS.
graph TD
Bill[(invoices <2 kB)] -->|ref| Hist[history <1 kB * N]
Bill -->|ref| Bin[pdf‑store (S3/GridFS)]SSD spend snow‑dropped; cache hit ratio jumped 22 p.p.
Step 3: 4 Form Sins Hiding in Plain Sight
Form isn’t nearly doc dimension—it’s how queries, indexes and entry patterns intertwine.
These 4 anti‑patterns lurk in most manufacturing clusters and silently drain money.
3.1 Low‑Cardinality Main Index Key
Symptom The index begins with a subject that has < 10 % distinct values, e.g. { kind: 1, ts: -1 } . The planner should traverse big swaths earlier than making use of the selective half.
Value Excessive B‑tree fan‑out, poor cache locality, further disk seeks.
Repair Transfer the selective key (userId , orgId , tenantId) first: { userId: 1, ts: -1 } . Rebuild on-line, then drop the outdated index.
3.2 Blind $regex Scan
Symptom $regex: /foo/i on a non‑listed subject forces a full assortment scan; CPU spikes, cache churns.
Value Every sample match walks each doc and decodes BSON within the sizzling path.
Repair Desire anchored patterns ( /^foo/ ) with a supporting index, or add a searchable slug subject ( decrease(identify) ) and index that as a substitute.
3.3 findOneAndUpdate as a Message Queue
Symptom Staff ballot with findOneAndUpdate({ standing: 'new' }, { $set: { standing: 'taken' } }).
Value Doc‑stage locks serialize writers; throughput collapses past a number of thousand ops/s.
Repair Use a function‑constructed queue (Redis Streams, Kafka, SQS) or Mongodb’s native change streams to push occasions, preserving writes append‑solely.
3.4 Offset Pagination Lure
Symptom discover().skip(N).restrict(20) the place N can attain six‑determine offsets.
Value Mongo nonetheless counts and discards all skipped docs—linear time. Latency balloons and billing counts every learn.
Repair Swap to vary cursors utilizing compound index (ts, _id) :
// web page after the final merchandise of earlier web page
discover({ ts: { $lt: lastTs } })
.type({ ts: -1, _id: -1 })
.restrict(20);Grasp these 4 and also you’ll reclaim RAM, decrease learn items, and postpone sharding by quarters.
Step 4: Value Anatomy 101
| Metric | Earlier than | Unit $ | Value | After | Δ % |
|---|---|---|---|---|---|
| Reads (3 ok/s) | 7.8 B | 0.09/M | $702 | 2.3 B | -70 |
| Writes (150/s) | 380 M | 0.225/M | $86 | 380 M | 0 |
| Xfer | 1.5 TB | 0.25/GB | $375 | 300 GB | -80 |
| Storage | 2 TB | 0.24/GB | $480 | 800 GB | -60 |
| Complete | $1,643 | -66 | |||
Step 5: 48‑Hour Rescue Timeline
| Hour | Motion | Software | Win |
|---|---|---|---|
| 0‑2 | Allow profiler (slowms = 50) | mongo shell | High 10 sluggish ops situated |
| 2‑6 | Substitute N + 1 with $lookup | VS Code + assessments | 90 % fewer reads |
| 6‑10 | Add projections & restrict() | API layer | RAM regular, API 4× quicker |
| 10‑16 | Break up jumbo docs | Scripted ETL | Working set matches in RAM |
| 16‑22 | Drop/re‑order weak indexes | Compass | Disk shrinks, cache hits ↑ |
| 22‑30 | Create TTLs / On-line Archive | Atlas UI | −60 % storage |
| 30‑36 | Wire Grafana panels | Prometheus | Early warnings stay |
| 36‑48 | Load‑take a look at with k6 | k6 + Atlas | p95 < 150 ms @ 2× load |
Step 6: Self‑Audit Guidelines
- Largest doc ÷ median > 10? → Refactor.
- Any cursor > 1 000 docs? → Paginate.
- TTL on each occasion assortment? (Y/N)
- Index cardinality < 10 %? → Drop or reorder.
- Profiler “sluggish” ops > 1 %? → Optimize or cache.
Tape this to your monitor earlier than Friday deploys.
Step 7: Why Form > Indexes (Most Days)
Including an index is like shopping for a quicker forklift for the warehouse: it accelerates selecting, nevertheless it does nothing if the aisles are cluttered with outsized bins. In MongoDB phrases the planner’s price system is roughly:
workUnits = ixScans + fetches + kinds + returnedDocsIndexes trim , but and “ can nonetheless dominate when paperwork are bloated, sparsely‑accessed, or poorly grouped.
A Story of Two Queries
| Skinny Doc (2 kB) | Jumbo Doc (16 MB) | |
|---|---|---|
| ixScans | 1 000 | 1 000 |
| fetches | 1 000×2 kB = 2 MB | 1 000×16 MB = 16 GB |
| Internet time | 80 ms | 48 s + eviction storms |
Identical index, similar question sample — the one distinction is form.
The Rule of Thumb
Repair form first, then index as soon as.
– Each reshaped doc shrinks each future fetch, cache line, and replication packet.
Three form wins simply beat a dozen further B‑bushes.
Step 8: Stay Metrics You Ought to Alert On (PromQL)
# Cache miss ratio (>10 % for five m triggers alert)
(fee(wiredtiger_blockmanager_blocks_read[1m]) /
(fee(wiredtiger_blockmanager_blocks_read[1m]) +
fee(wiredtiger_blockmanager_blocks_read_from_cache[1m]))) > 0.10
# Docs scanned vs returned (>100 triggers alert)
fee(mongodb_ssm_metrics_documents{state="scanned"}[1m]) /
fee(mongodb_ssm_metrics_documents{state="returned"}[1m]) > 100Step 9: Skinny‑Slice Migration Script
Want to interrupt a 1‑TB occasions assortment into sub‑collections with out downtime? Use double‑writes + backfill:
// 1) Ahead writes
const cs = db.occasions.watch([], { fullDocument: 'updateLookup' });
cs.on('change', ev => {
db[`${ev.fullDocument.type}s`].insertOne(ev.fullDocument);
});
// 2) Backfill historical past
let lastId = ObjectId("000000000000000000000000");
whereas (true) {
const batch = db.occasions
.discover({ _id: { $gt: lastId } })
.type({ _id: 1 })
.restrict(10_000)
.toArray();
if (!batch.size) break;
db[batch[0].kind + 's'].insertMany(batch);
lastId = batch[batch.length - 1]._id;
}Step 11: When Sharding Is Really Required
Sharding is a final‑mile tactic, not a primary‑line treatment. It fractures information, multiplies failure modes, and complicates each migration. Exhaust vertical upgrades and form‑primarily based optimizations first. Attain for a shard key solely when at the least one of many thresholds under is sustained below actual load and can’t be solved cheaper.
Exhausting Capability Ceilings
| Symptom | Rule of Thumb | Why Horizontal Break up Helps |
|---|---|---|
| Working set sits above 80 % of bodily RAM for twenty-four h+ | < 60 % is wholesome; 60–80 % could be masked by an even bigger field; > 80 % pages consistently | Splitting places sizzling partitions on separate nodes, restoring cache‑hit ratio |
| Main write throughput > 15 000 ops/s after index tuning | Under 10 000 ops/s you’ll be able to usually survive by batching or bulk upserts | Isolating excessive‑velocity chunks reduces journal lag and lock competition |
| Multi‑area product wants < 70 ms p95 learn latency | Velocity‑of‑gentle units ~80 ms US↔EU ground | Zone sharding pins information close to customers with out resorting to edge caches |
Delicate Alerts Sharding Is Approaching
- Index builds exceed upkeep home windows even with on-line indexing.
- Compaction time eats into catastrophe‑restoration SLA.
- A single tenant owns > 25 % of cluster quantity.
- Profiler reveals > 500 ms lock spikes from lengthy transactions.
Guidelines Earlier than You Minimize
- Reshape paperwork: if the most important doc is 20 × the median, refactor first.
- Allow compression ( zstd or snappy ) usually buys 30 % storage headroom.
- Archive chilly information by way of On-line Archive or tiered S3 storage.
- Rewrite hottest endpoints in Go/Rust if JSON parsing dominates CPU.
- Run
mongo‑perf; if workload matches a single reproduction set publish‑fixes, abort the shard plan.
Selecting a Shard Key
- Use excessive‑cardinality, monotonically rising fields (
ObjectId, timestamp prefix). - Keep away from low‑entropy keys (
standing,nation) that funnel writes to a couple chunks. - Put the commonest question predicate first to keep away from scatter‑collect.
Sharding is surgical procedure; as soon as you narrow, you reside with the scar. Be certain that the affected person really wants the operation.
Conclusion — Shaping Up Earlier than the Invoice Comes Due
When the M60 improve landed with a silent increase, it wasn’t the {hardware}’s fault it was a wake-up name. This wasn’t about CPU, reminiscence, or disk it was about form. Form of the paperwork. Form of the queries. Form of the assumptions that quietly bloated over months of “simply ship it” sprints.
Fixing it didn’t take a brand new database, a weekend migration, or a military of consultants. It took a group prepared to look inward, to commerce panic for profiling, and to reshape what they already had.
The outcomes have been simple: latency down by 92%, prices reduce by practically 80%, and a codebase now lean sufficient to breathe.
However right here’s the true takeaway: technical debt on form isn’t only a efficiency subject it’s a monetary one. And in contrast to indexes or caching tips, shaping issues proper up entrance pays off each single time your question runs, each time your information replicates, each time you scale.
So earlier than your subsequent billing cycle spikes, ask your self:
- Does each endpoint want the total doc?
- Are we designing for reads, or simply writing quick?
- Are our indexes working, or simply working exhausting?
Form-first isn’t a way — it’s a mindset. A behavior. And the sooner you undertake it, the longer your system — and your runway — will final.
Sources & Additional Studying
Concerning the Creator
Hayk Ghukasyan is a Chief of Engineering at Hexact, the place he helps construct automation platforms like Hexomatic and Hexospark. He has over 20 years of expertise in large-scale programs structure, real-time databases, and optimization engineering.
