How to Receive SendGrid Webhooks in FastAPI
Read request.body() before any json() call
FastAPI is the modern Python web framework of choice for new projects in 2026. Pydantic-style request models are great for application APIs but actively get in the way of webhooks — you need the raw bytes the sender signed, not a parsed Pydantic object. This guide walks through the FastAPI setup for SendGrid webhooks end to end: capturing the raw body, verifying the signature, handling retries idempotently, and iterating locally without redeploying. Cross-reference the SendGrid Webhooks overview for the event catalog and sample payload.
SendGrid Official Webhook Docs1. Set Up the FastAPI Endpoint
The endpoint needs to do three things, in this order: read the raw body, verify the signature against those exact bytes, and only then parse the JSON for your business logic.
# main.py
from fastapi import FastAPI, Request, HTTPException
import json
app = FastAPI()
@app.post("/api/webhooks/{service}")
async def webhook(service: str, request: Request):
# IMPORTANT: read the raw body FIRST.
# Once you call request.json() the body is consumed.
raw_body = await request.body()
signature = request.headers.get("x-signature-header", "")
# 1. Verify HMAC over raw_body
# 2. Parse JSON only after verification passes
# 3. Process the event idempotently (use the event id as your key)
event = json.loads(raw_body)
print("Verified webhook:", event.get("type") or event)
return {"status": "ok"}2. Verify the SendGrid Signature
- Algorithm
- ECDSA (P-256, SHA-256)
- Header
X-Twilio-Email-Event-Webhook-Signature- Encoding
- base64
SendGrid signs `{X-Twilio-Email-Event-Webhook-Timestamp}{raw_request_body}` with an ECDSA private key. Verify with the public key from Settings → Mail Settings → Event Webhooks (must be enabled per-webhook).
Python verification
# pip install sendgrid
import os
from sendgrid.helpers.eventwebhook import EventWebhook, EventWebhookHeader
from fastapi import FastAPI, Request, HTTPException
ew = EventWebhook()
public_key = ew.convert_public_key_to_ecdsa(
os.environ['SENDGRID_WEBHOOK_PUBLIC_KEY']
)
app = FastAPI()
@app.post("/webhooks/sendgrid")
async def sendgrid_webhook(request: Request):
body = await request.body()
signature = request.headers.get(EventWebhookHeader.SIGNATURE.lower(), '')
timestamp = request.headers.get(EventWebhookHeader.TIMESTAMP.lower(), '')
if not ew.verify_signature(public_key, body.decode(), signature, timestamp):
raise HTTPException(status_code=403, detail='invalid signature')
return {'ok': True}Wire this verification call into the FastAPI handler from section 1. The pattern is identical across FastAPI versions: read raw body, verify, parse JSON, dispatch.
See SendGrid's official signing docs for the canonical reference, or the cross-service signature verification guide for the same pattern in Ruby and other languages.
3. Make the Handler Idempotent
SendGrid can — and will — send the same event twice. Network blips, your server returning a 5xx mid-processing, deploy windows: any of these triggers a retry, and your handler will see the same event id again. Build for that on day one rather than chasing duplicate-charge bugs in production.
The simplest pattern is a unique constraint on the event id in your database. The handler does the work inside a transaction, and the insert into the events table is the last step — if a retry arrives, the unique-constraint violation tells you the event already committed and you can return 200 without re-running the side effects.
Pattern in any framework:
- Read raw body, verify signature.
- Begin transaction.
- Apply business logic (charge, fulfil, notify, etc.).
- Insert event id into
processed_eventswith a unique constraint. - Commit. Return 200.
- On unique-constraint violation, return 200 — the event was already processed by a prior delivery.
4. SendGrid Retry Behaviour
- Max attempts
- Up to 24h of retries
- Total window
- 24 hours
- Backoff
- Exponential
- Retries on
- Non-2xx responses
- Stops on
- Any 2xx response within timeout
Combine the retry numbers above with the idempotency pattern in section 3: aim to acknowledge fast (return 200 under the timeout) and let the idempotency table absorb any duplicates from in-flight retries. The full pattern, including dead-letter queues and replay-from-capture, lives in the Webhook Retry Strategies guide.
5. Test Locally Without Deploying
The fastest iteration loop for any webhook handler is: capture a real SendGrid event with HookRay, then replay that captured request against your local FastAPI server until the verification + business logic both pass. No need to retrigger the event in SendGrid, no need to redeploy.
- Get a free webhook URL at hookray.com — no signup.
- Paste the URL into your SendGriddashboard's webhook settings.
- Trigger a test event. HookRay shows the headers, raw body, and parsed payload in real time.
- Use HookRay's replay feature to send the captured request against
http://localhost:3000/api/webhooks/sendgrid(or wherever your FastAPI app is listening) — iterate on your code without re-poking the SendGrid dashboard.
Deploying the FastAPI Handler
FastAPI is typically deployed behind Uvicorn or Gunicorn + Uvicorn workers. For webhook handlers specifically, ensure your reverse proxy (Nginx, Cloud Load Balancing, etc.) doesn't buffer or rewrite request bodies — some default configurations strip trailing whitespace or normalise charset, which silently breaks HMAC.
Need a host that boots quickly enough to absorb webhook bursts? DigitalOcean droplets stay warm, support raw-body proxies cleanly, and avoid the cold-start traps of some serverless runtimes.
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