azure-keyvault-py
Azure Key Vault SDK for Python. Use for secrets, keys, and certificates management with secure storage.
Best use case
azure-keyvault-py is best used when you need a repeatable AI agent workflow instead of a one-off prompt.
Azure Key Vault SDK for Python. Use for secrets, keys, and certificates management with secure storage.
Teams using azure-keyvault-py should expect a more consistent output, faster repeated execution, less prompt rewriting.
When to use this skill
- You want a reusable workflow that can be run more than once with consistent structure.
When not to use this skill
- You only need a quick one-off answer and do not need a reusable workflow.
- You cannot install or maintain the underlying files, dependencies, or repository context.
Installation
Claude Code / Cursor / Codex
Manual Installation
- Download SKILL.md from GitHub
- Place it in
.claude/skills/azure-keyvault-py/SKILL.mdinside your project - Restart your AI agent — it will auto-discover the skill
How azure-keyvault-py Compares
| Feature / Agent | azure-keyvault-py | Standard Approach |
|---|---|---|
| Platform Support | Not specified | Limited / Varies |
| Context Awareness | High | Baseline |
| Installation Complexity | Unknown | N/A |
Frequently Asked Questions
What does this skill do?
Azure Key Vault SDK for Python. Use for secrets, keys, and certificates management with secure storage.
Where can I find the source code?
You can find the source code on GitHub using the link provided at the top of the page.
SKILL.md Source
# Azure Key Vault SDK for Python
Secure storage and management for secrets, cryptographic keys, and certificates.
## Installation
```bash
# Secrets
pip install azure-keyvault-secrets azure-identity
# Keys (cryptographic operations)
pip install azure-keyvault-keys azure-identity
# Certificates
pip install azure-keyvault-certificates azure-identity
# All
pip install azure-keyvault-secrets azure-keyvault-keys azure-keyvault-certificates azure-identity
```
## Environment Variables
```bash
AZURE_KEYVAULT_URL=https://<vault-name>.vault.azure.net/
```
## Secrets
### SecretClient Setup
```python
from azure.identity import DefaultAzureCredential
from azure.keyvault.secrets import SecretClient
credential = DefaultAzureCredential()
vault_url = "https://<vault-name>.vault.azure.net/"
client = SecretClient(vault_url=vault_url, credential=credential)
```
### Secret Operations
```python
# Set secret
secret = client.set_secret("database-password", "super-secret-value")
print(f"Created: {secret.name}, version: {secret.properties.version}")
# Get secret
secret = client.get_secret("database-password")
print(f"Value: {secret.value}")
# Get specific version
secret = client.get_secret("database-password", version="abc123")
# List secrets (names only, not values)
for secret_properties in client.list_properties_of_secrets():
print(f"Secret: {secret_properties.name}")
# List versions
for version in client.list_properties_of_secret_versions("database-password"):
print(f"Version: {version.version}, Created: {version.created_on}")
# Delete secret (soft delete)
poller = client.begin_delete_secret("database-password")
deleted_secret = poller.result()
# Purge (permanent delete, if soft-delete enabled)
client.purge_deleted_secret("database-password")
# Recover deleted secret
client.begin_recover_deleted_secret("database-password").result()
```
## Keys
### KeyClient Setup
```python
from azure.identity import DefaultAzureCredential
from azure.keyvault.keys import KeyClient
credential = DefaultAzureCredential()
vault_url = "https://<vault-name>.vault.azure.net/"
client = KeyClient(vault_url=vault_url, credential=credential)
```
### Key Operations
```python
from azure.keyvault.keys import KeyType
# Create RSA key
rsa_key = client.create_rsa_key("rsa-key", size=2048)
# Create EC key
ec_key = client.create_ec_key("ec-key", curve="P-256")
# Get key
key = client.get_key("rsa-key")
print(f"Key type: {key.key_type}")
# List keys
for key_properties in client.list_properties_of_keys():
print(f"Key: {key_properties.name}")
# Delete key
poller = client.begin_delete_key("rsa-key")
deleted_key = poller.result()
```
### Cryptographic Operations
```python
from azure.keyvault.keys.crypto import CryptographyClient, EncryptionAlgorithm
# Get crypto client for a specific key
crypto_client = CryptographyClient(key, credential=credential)
# Or from key ID
crypto_client = CryptographyClient(
"https://<vault>.vault.azure.net/keys/<key-name>/<version>",
credential=credential
)
# Encrypt
plaintext = b"Hello, Key Vault!"
result = crypto_client.encrypt(EncryptionAlgorithm.rsa_oaep, plaintext)
ciphertext = result.ciphertext
# Decrypt
result = crypto_client.decrypt(EncryptionAlgorithm.rsa_oaep, ciphertext)
decrypted = result.plaintext
# Sign
from azure.keyvault.keys.crypto import SignatureAlgorithm
import hashlib
digest = hashlib.sha256(b"data to sign").digest()
result = crypto_client.sign(SignatureAlgorithm.rs256, digest)
signature = result.signature
# Verify
result = crypto_client.verify(SignatureAlgorithm.rs256, digest, signature)
print(f"Valid: {result.is_valid}")
```
## Certificates
### CertificateClient Setup
```python
from azure.identity import DefaultAzureCredential
from azure.keyvault.certificates import CertificateClient, CertificatePolicy
credential = DefaultAzureCredential()
vault_url = "https://<vault-name>.vault.azure.net/"
client = CertificateClient(vault_url=vault_url, credential=credential)
```
### Certificate Operations
```python
# Create self-signed certificate
policy = CertificatePolicy.get_default()
poller = client.begin_create_certificate("my-cert", policy=policy)
certificate = poller.result()
# Get certificate
certificate = client.get_certificate("my-cert")
print(f"Thumbprint: {certificate.properties.x509_thumbprint.hex()}")
# Get certificate with private key (as secret)
from azure.keyvault.secrets import SecretClient
secret_client = SecretClient(vault_url=vault_url, credential=credential)
cert_secret = secret_client.get_secret("my-cert")
# cert_secret.value contains PEM or PKCS12
# List certificates
for cert in client.list_properties_of_certificates():
print(f"Certificate: {cert.name}")
# Delete certificate
poller = client.begin_delete_certificate("my-cert")
deleted = poller.result()
```
## Client Types Table
| Client | Package | Purpose |
|--------|---------|---------|
| `SecretClient` | `azure-keyvault-secrets` | Store/retrieve secrets |
| `KeyClient` | `azure-keyvault-keys` | Manage cryptographic keys |
| `CryptographyClient` | `azure-keyvault-keys` | Encrypt/decrypt/sign/verify |
| `CertificateClient` | `azure-keyvault-certificates` | Manage certificates |
## Async Clients
```python
from azure.identity.aio import DefaultAzureCredential
from azure.keyvault.secrets.aio import SecretClient
async def get_secret():
credential = DefaultAzureCredential()
client = SecretClient(vault_url=vault_url, credential=credential)
async with client:
secret = await client.get_secret("my-secret")
print(secret.value)
import asyncio
asyncio.run(get_secret())
```
## Error Handling
```python
from azure.core.exceptions import ResourceNotFoundError, HttpResponseError
try:
secret = client.get_secret("nonexistent")
except ResourceNotFoundError:
print("Secret not found")
except HttpResponseError as e:
if e.status_code == 403:
print("Access denied - check RBAC permissions")
raise
```
## Best Practices
1. **Use DefaultAzureCredential** for authentication
2. **Use managed identity** in Azure-hosted applications
3. **Enable soft-delete** for recovery (enabled by default)
4. **Use RBAC** over access policies for fine-grained control
5. **Rotate secrets** regularly using versioning
6. **Use Key Vault references** in App Service/Functions config
7. **Cache secrets** appropriately to reduce API calls
8. **Use async clients** for high-throughput scenarios
## When to Use
This skill is applicable to execute the workflow or actions described in the overview.Related Skills
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