Manage cryptographic keys using Azure Key Vault Keys SDK for JavaScript (@azure/keyvault-keys). Use when creating, encrypting/decrypting, signing, or rotating keys.
Add this skill
npx mdskills install sickn33/azure-keyvault-keys-tsComprehensive reference with strong code examples and cryptographic operation coverage.
Manage cryptographic keys with Azure Key Vault.
# Keys SDK
npm install @azure/keyvault-keys @azure/identity
KEY_VAULT_URL=https://.vault.azure.net
# Or
AZURE_KEYVAULT_NAME=
import { DefaultAzureCredential } from "@azure/identity";
import { KeyClient, CryptographyClient } from "@azure/keyvault-keys";
const credential = new DefaultAzureCredential();
const vaultUrl = `https://${process.env.AZURE_KEYVAULT_NAME}.vault.azure.net`;
const keyClient = new KeyClient(vaultUrl, credential);
const secretClient = new SecretClient(vaultUrl, credential);
const secret = await secretClient.setSecret("MySecret", "secret-value");
// With attributes
const secretWithAttrs = await secretClient.setSecret("MySecret", "value", {
enabled: true,
expiresOn: new Date("2025-12-31"),
contentType: "application/json",
tags: { environment: "production" }
});
// Get latest version
const secret = await secretClient.getSecret("MySecret");
console.log(secret.value);
// Get specific version
const specificSecret = await secretClient.getSecret("MySecret", {
version: secret.properties.version
});
for await (const secretProperties of secretClient.listPropertiesOfSecrets()) {
console.log(secretProperties.name);
}
// List versions
for await (const version of secretClient.listPropertiesOfSecretVersions("MySecret")) {
console.log(version.version);
}
// Soft delete
const deletePoller = await secretClient.beginDeleteSecret("MySecret");
await deletePoller.pollUntilDone();
// Purge (permanent)
await secretClient.purgeDeletedSecret("MySecret");
// Recover
const recoverPoller = await secretClient.beginRecoverDeletedSecret("MySecret");
await recoverPoller.pollUntilDone();
// Generic key
const key = await keyClient.createKey("MyKey", "RSA");
// RSA key with size
const rsaKey = await keyClient.createRsaKey("MyRsaKey", { keySize: 2048 });
// Elliptic Curve key
const ecKey = await keyClient.createEcKey("MyEcKey", { curve: "P-256" });
// With attributes
const keyWithAttrs = await keyClient.createKey("MyKey", "RSA", {
enabled: true,
expiresOn: new Date("2025-12-31"),
tags: { purpose: "encryption" },
keyOps: ["encrypt", "decrypt", "sign", "verify"]
});
const key = await keyClient.getKey("MyKey");
console.log(key.name, key.keyType);
for await (const keyProperties of keyClient.listPropertiesOfKeys()) {
console.log(keyProperties.name);
}
// Manual rotation
const rotatedKey = await keyClient.rotateKey("MyKey");
// Set rotation policy
await keyClient.updateKeyRotationPolicy("MyKey", {
lifetimeActions: [{ action: "Rotate", timeBeforeExpiry: "P30D" }],
expiresIn: "P90D"
});
const deletePoller = await keyClient.beginDeleteKey("MyKey");
await deletePoller.pollUntilDone();
// Purge
await keyClient.purgeDeletedKey("MyKey");
import { CryptographyClient } from "@azure/keyvault-keys";
// From key object
const cryptoClient = new CryptographyClient(key, credential);
// From key ID
const cryptoClient = new CryptographyClient(key.id!, credential);
// Encrypt
const encryptResult = await cryptoClient.encrypt({
algorithm: "RSA-OAEP",
plaintext: Buffer.from("My secret message")
});
// Decrypt
const decryptResult = await cryptoClient.decrypt({
algorithm: "RSA-OAEP",
ciphertext: encryptResult.result
});
console.log(decryptResult.result.toString());
import { createHash } from "node:crypto";
// Create digest
const hash = createHash("sha256").update("My message").digest();
// Sign
const signResult = await cryptoClient.sign("RS256", hash);
// Verify
const verifyResult = await cryptoClient.verify("RS256", hash, signResult.result);
console.log("Valid:", verifyResult.result);
// Wrap a key (encrypt it for storage)
const wrapResult = await cryptoClient.wrapKey("RSA-OAEP", Buffer.from("key-material"));
// Unwrap
const unwrapResult = await cryptoClient.unwrapKey("RSA-OAEP", wrapResult.result);
// Backup
const keyBackup = await keyClient.backupKey("MyKey");
const secretBackup = await secretClient.backupSecret("MySecret");
// Restore (can restore to different vault)
const restoredKey = await keyClient.restoreKeyBackup(keyBackup!);
const restoredSecret = await secretClient.restoreSecretBackup(secretBackup!);
import {
KeyClient,
KeyVaultKey,
KeyProperties,
DeletedKey,
CryptographyClient,
KnownEncryptionAlgorithms,
KnownSignatureAlgorithms
} from "@azure/keyvault-keys";
import {
SecretClient,
KeyVaultSecret,
SecretProperties,
DeletedSecret
} from "@azure/keyvault-secrets";
try {
const secret = await secretClient.getSecret("NonExistent");
} catch (error: any) {
if (error.code === "SecretNotFound") {
console.log("Secret does not exist");
} else {
throw error;
}
}
Install via CLI
npx mdskills install sickn33/azure-keyvault-keys-tsAzure Keyvault Keys Ts is a free, open-source AI agent skill. Manage cryptographic keys using Azure Key Vault Keys SDK for JavaScript (@azure/keyvault-keys). Use when creating, encrypting/decrypting, signing, or rotating keys.
Install Azure Keyvault Keys Ts with a single command:
npx mdskills install sickn33/azure-keyvault-keys-tsThis downloads the skill files into your project and your AI agent picks them up automatically.
Azure Keyvault Keys Ts works with Claude Code, Claude Desktop, Cursor, Vscode Copilot, Windsurf, Continue Dev, Codex, Gemini Cli, Amp, Roo Code, Goose, Opencode, Trae, Qodo, Command Code. Skills use the open SKILL.md format which is compatible with any AI coding agent that reads markdown instructions.