> ## Documentation Index
> Fetch the complete documentation index at: https://docs.lightspark.com/llms.txt
> Use this file to discover all available pages before exploring further.
# Sandbox testing
> Exercise the Global Account auth, signing, and funding flows without standing up real OTP delivery, WebAuthn, or OIDC providers
The Grid sandbox lets you exercise the full Global Accounts integration — customer creation, account lookup, credential registration, funding, and signed withdrawals — without moving real money or standing up real auth providers. All API endpoints work the same way as in production, but money movements are simulated. OTP, passkey, and wallet signatures use sandbox-only magic values, while OAuth uses JWT-shaped sandbox OIDC tokens with claim, freshness, identity, and nonce checks.
## Sandbox setup
To use the sandbox environment:
1. Go to [app.lightspark.com](https://app.lightspark.com), create an account, and generate your sandbox API keys from the dashboard.
2. Add your sandbox API token and secret to your environment variables.
3. Use the normal production base URL: `https://api.lightspark.com/grid/2025-10-13`.
4. Authenticate using your sandbox token with HTTP Basic Auth.
In sandbox, customers are KYC-approved on creation, and a Global Account is provisioned automatically alongside any other internal accounts whenever the platform has `USDB` in its supported currencies.
## Funding a Global Account
Real Global Accounts are funded by following payment instructions or by executing a quote into the account. In sandbox, you can instantly add USDB to any internal account using the sandbox funding endpoint:
```bash theme={null}
curl -X POST "$GRID_BASE_URL/sandbox/internal-accounts/InternalAccount:abc123/fund" \
-u "$GRID_CLIENT_ID:$GRID_CLIENT_SECRET" \
-H "Content-Type: application/json" \
-d '{
"amount": 100000
}'
```
This credits the account immediately and fires the standard `INCOMING_PAYMENT` webhook. Use this to skip straight to a funded state when you're testing withdrawals.
## Magic values
The Grid sandbox lets you exercise Global Account auth flows without moving real money. Email OTP uses the fixed sandbox code `000000` — HPKE-encrypt that code in the `encryptedOtpBundle` just like production. Passkey auth can use the same browser WebAuthn ceremony as production, and signed wallet actions can use the same session signing key and `Grid-Wallet-Signature` stamp as production. OAuth uses JWT-shaped sandbox OIDC tokens: sandbox skips real IdP signature verification, but still validates token claims, freshness, credential identity, and verify-time nonce binding.
Sandbox runs real HPKE end-to-end for EMAIL\_OTP: clients build a real `encryptedOtpBundle` against the sandbox `otpEncryptionTargetBundle` and sign a real `verificationToken` with their TEK keypair. The only sandbox shortcut is the magic OTP code the user "receives" instead of a real email delivery.
Authentication failures return `401 UNAUTHORIZED` with a `reason` field that names the specific check that failed. A malformed OIDC JWT can return `400 INVALID_INPUT` before authentication starts.
### Email OTP code
HPKE-encrypt the code `000000` (together with your TEK public key) inside `encryptedOtpBundle`. The sandbox skips email delivery but runs real HPKE decryption and signature verification.
See Encrypt the OTP code for how to build the bundle. The flow is:
1. Call `POST /auth/credentials/{id}/challenge` to get `otpEncryptionTargetBundle`
2. Generate a TEK key pair and HPKE-encrypt `{otp_code: "000000", public_key: tekPublicKeyHex}`
3. Submit `encryptedOtpBundle` to `POST /auth/credentials/{id}/verify`
4. Receive `202` with `payloadToSign` and `requestId`
5. Sign `payloadToSign` with the TEK private key and retry with `Grid-Wallet-Signature` + `Request-Id` headers
```bash theme={null}
# First leg — returns 202 with payloadToSign
curl -X POST https://api.lightspark.com/grid/2025-10-13/auth/credentials/AuthMethod:abc123/verify \
-u "$GRID_CLIENT_ID:$GRID_CLIENT_SECRET" \
-H "Content-Type: application/json" \
-d '{
"type": "EMAIL_OTP",
"encryptedOtpBundle": "{\"encappedPublic\":\"044f631a...\",\"ciphertext\":\"1fa1023390...\"}"
}'
# Signed retry — returns 200 with AuthSession
curl -X POST https://api.lightspark.com/grid/2025-10-13/auth/credentials/AuthMethod:abc123/verify \
-u "$GRID_CLIENT_ID:$GRID_CLIENT_SECRET" \
-H "Content-Type: application/json" \
-H "Grid-Wallet-Signature: eyJwdWJsaWNLZXkiOiIwMmExYjIuLi4i..." \
-H "Request-Id: Request:7c4a8d09-ca37-4e3e-9e0d-8c2b3e9a1f21" \
-d '{
"type": "EMAIL_OTP",
"encryptedOtpBundle": "{\"encappedPublic\":\"044f631a...\",\"ciphertext\":\"1fa1023390...\"}"
}'
```
Any other code (once decrypted) returns `401 UNAUTHORIZED` with `reason: "Invalid OTP code"`.
### Passkey WebAuthn ceremony
For new sandbox integrations, use the same WebAuthn calls you plan to use in production.
Generate your own WebAuthn registration challenge and call `navigator.credentials.create()`.
Register the passkey with `POST /auth/credentials`, passing the challenge and attestation returned by the browser.
Reauthenticate with `POST /auth/credentials/{id}/challenge`, passing the P-256 `clientPublicKey` that Grid should seal the session signing key to.
Pass the returned `challenge` into `navigator.credentials.get()` using the returned `credentialId` in `allowCredentials`.
Verify with `POST /auth/credentials/{id}/verify`, passing the browser assertion and echoing `Request-Id` from the challenge response.
The sandbox validates the registered credential ID, WebAuthn challenge, origin/RP binding, user-presence bit, assertion signature, and signature counter. A successful verify response includes `encryptedSessionSigningKey`, sealed to the `clientPublicKey`, just like production.
```bash theme={null}
# 1. /challenge with clientPublicKey
curl -X POST https://api.lightspark.com/grid/2025-10-13/auth/credentials/AuthMethod:abc123/challenge \
-u "$GRID_CLIENT_ID:$GRID_CLIENT_SECRET" \
-H "Content-Type: application/json" \
-d '{
"clientPublicKey": "04f45f2a..."
}'
# 2. /verify with the browser assertion returned by navigator.credentials.get()
curl -X POST https://api.lightspark.com/grid/2025-10-13/auth/credentials/AuthMethod:abc123/verify \
-u "$GRID_CLIENT_ID:$GRID_CLIENT_SECRET" \
-H "Content-Type: application/json" \
-H "Request-Id: Request:7c4a8d09-ca37-4e3e-9e0d-8c2b3e9a1f21" \
-d '{
"type": "PASSKEY",
"assertion": {
"credentialId": "...",
"clientDataJson": "...",
"authenticatorData": "...",
"signature": "..."
}
}'
```
The legacy sandbox-only assertion signature `sandbox-valid-passkey-signature` is still accepted for compatibility, but it skips WebAuthn verification and should not be used for production-shaped sandbox tests.
### OAuth (OIDC) token
OAuth does not use a fixed magic token in sandbox. Pass a JWT-shaped OIDC token as `oidcToken`. The JWT signature segment can be a dummy value, but the payload must look like a real ID token.
For `POST /auth/credentials` with `type: "OAUTH"`, the sandbox token must include:
* `iss`: a supported issuer, such as `https://accounts.google.com`, `accounts.google.com`, or `https://appleid.apple.com`
* `aud`: a non-empty string, or a single-element string array
* `sub`: a non-empty subject identifier for the user
* `iat`: a numeric issued-at timestamp no more than 60 seconds before the request, with 5 seconds of clock skew allowed
* `exp`: a numeric expiration timestamp later than the request time
Grid stores the OAuth credential's registered identity from `iss`, `aud`, and `sub`. On `POST /auth/credentials/{id}/verify`, the fresh `oidcToken` must carry the same `iss`, `aud`, and `sub` as the credential being verified. It must also include `nonce` equal to `sha256(clientPublicKey)`, where `clientPublicKey` is the exact hex public key sent in the verify request.
```bash theme={null}
export PUBLIC_KEY="04f45f2a22c908b9ce09a7150e514afd24627c401c38a4afc164e1ea783adaaa31d4245acfb88c2ebd42b47628d63ecabf345484f0a9f665b63c54c897d5578be2"
OIDC_TOKEN=$(node - <<'NODE'
const crypto = require("crypto");
const publicKey = process.env.PUBLIC_KEY || "04f45f2a22c908b9ce09a7150e514afd24627c401c38a4afc164e1ea783adaaa31d4245acfb88c2ebd42b47628d63ecabf345484f0a9f665b63c54c897d5578be2";
const now = Math.floor(Date.now() / 1000);
const b64url = (value) =>
Buffer.from(JSON.stringify(value)).toString("base64url");
const payload = {
iss: "https://accounts.google.com",
sub: "sandbox-user-123",
aud: "grid-sandbox-oauth-client-id",
iat: now,
exp: now + 300,
nonce: crypto.createHash("sha256").update(publicKey).digest("hex"),
email: "sandbox-user-123@example.com",
email_verified: true
};
console.log(
`${b64url({ alg: "RS256", typ: "JWT" })}.${b64url(payload)}.sandbox-signature`
);
NODE
)
curl -X POST https://api.lightspark.com/grid/2025-10-13/auth/credentials/AuthMethod:abc123/verify \
-u "$GRID_CLIENT_ID:$GRID_CLIENT_SECRET" \
-H "Content-Type: application/json" \
-d '{
"type": "OAUTH",
"oidcToken": "'"$OIDC_TOKEN"'",
"clientPublicKey": "'"$PUBLIC_KEY"'"
}'
```
The old literal `sandbox-valid-oidc-token` is no longer accepted. Use a freshly generated sandbox JWT for both OAuth credential registration and OAuth verification. Production requires a real ID token from your provider and verifies the provider signature.
### Wallet signature header
For `PASSKEY` and `OAUTH` credentials, decrypt `encryptedSessionSigningKey` with the private key matching the `clientPublicKey` you supplied on verify or refresh. For `EMAIL_OTP`, the TEK private key you generated for the encrypted OTP flow **is** the session signing key — no decryption step needed. Use the session signing key to build a Turnkey API-key stamp over the exact `payloadToSign` string returned by Grid, then pass that full stamp as the `Grid-Wallet-Signature` HTTP header on signed flows:
* `POST /auth/credentials` (add-additional-credential signed retry)
* `DELETE /auth/credentials/{id}` (revoke credential)
* `DELETE /auth/sessions/{id}` (revoke session)
* `POST /internal-accounts/{id}/export` (export wallet)
* `PATCH /internal-accounts/{id}` (update wallet privacy)
* `POST /quotes/{quoteId}/execute` (when source is an embedded wallet)
This example uses the sample signer in the Grid API repo's [scripts directory](https://github.com/lightsparkdev/grid-api/tree/main/scripts). See the [scripts README](https://github.com/lightsparkdev/grid-api/blob/main/scripts/README.md) for setup, or replace `SIGN` with your own Turnkey API-key stamp implementation.
```bash theme={null}
SIGN="node $(pwd)/scripts/embedded-wallet-sign.js"
STAMP=$($SIGN stamp "$SESSION_PRIV_HEX" "$PAYLOAD_TO_SIGN")
curl -X POST https://api.lightspark.com/grid/2025-10-13/quotes/Quote:abc123/execute \
-u "$GRID_CLIENT_ID:$GRID_CLIENT_SECRET" \
-H "Content-Type: application/json" \
-H "Idempotency-Key: 7c4a8d09-ca37-4e3e-9e0d-8c2b3e9a1f21" \
-H "Grid-Wallet-Signature: $STAMP"
```
Sandbox validates that the stamp is a P-256 Turnkey API-key stamp over the exact pending Turnkey payload and that the public key belongs to an active sandbox session for the wallet.
The legacy sandbox-only `Grid-Wallet-Signature: sandbox-valid-signature` value is still accepted for compatibility. Use a real session stamp when you want the client implementation to match production.
## Webhooks
All webhook events fire normally in sandbox. Configure your webhook URL in the dashboard, perform any signed action, and your endpoint receives the same `INCOMING_PAYMENT`, `OUTGOING_PAYMENT`, and account-state events as production.
Do not try to send real money to any sandbox addresses or accounts. These are not real destinations and will not receive funds.
## Moving to production
When you're ready to go live:
1. Generate production API tokens in the dashboard and swap them for the sandbox credentials in your environment.
2. Remove sandbox magic values and unsigned sandbox OIDC tokens from your client and server code — production runs the real OTP, HPKE, WebAuthn, OIDC signature, and ECDSA flows.
3. Configure production webhook endpoints.
4. Test with small amounts first.
## Next steps
* [Implementation overview](/global-accounts/implementation-overview) — end-to-end walkthrough of the happy path.
* [Authentication](/global-accounts/authentication) — per-credential-type registration and reauthentication flows.
* [Webhooks](/global-accounts/platform-tools/webhooks) — event handling reference.