smallstep-certificates/kms/azurekms/key_vault.go

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package azurekms
import (
"context"
"crypto"
"regexp"
"time"
"github.com/Azure/azure-sdk-for-go/services/keyvault/v7.1/keyvault"
"github.com/Azure/go-autorest/autorest/azure/auth"
"github.com/Azure/go-autorest/autorest/date"
"github.com/pkg/errors"
"github.com/smallstep/certificates/kms/apiv1"
)
func init() {
apiv1.Register(apiv1.AzureKMS, func(ctx context.Context, opts apiv1.Options) (apiv1.KeyManager, error) {
return New(ctx, opts)
})
}
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// Scheme is the scheme used for the Azure Key Vault uris.
const Scheme = "azurekms"
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// keyIDRegexp is the regular expression that Key Vault uses on the kid. We can
// extract the vault, name and version of the key.
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var keyIDRegexp = regexp.MustCompile(`^https://([0-9a-zA-Z-]+)\.vault\.azure\.net/keys/([0-9a-zA-Z-]+)/([0-9a-zA-Z-]+)$`)
var (
valueTrue = true
value2048 int32 = 2048
value3072 int32 = 3072
value4096 int32 = 4096
)
var now = func() time.Time {
return time.Now().UTC()
}
type keyType struct {
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Kty keyvault.JSONWebKeyType
Curve keyvault.JSONWebKeyCurveName
}
func (k keyType) KeyType(pl apiv1.ProtectionLevel) keyvault.JSONWebKeyType {
switch k.Kty {
case keyvault.EC:
if pl == apiv1.HSM {
return keyvault.ECHSM
}
return k.Kty
case keyvault.RSA:
if pl == apiv1.HSM {
return keyvault.RSAHSM
}
return k.Kty
default:
return ""
}
}
var signatureAlgorithmMapping = map[apiv1.SignatureAlgorithm]keyType{
apiv1.UnspecifiedSignAlgorithm: {
Kty: keyvault.EC,
Curve: keyvault.P256,
},
apiv1.SHA256WithRSA: {
Kty: keyvault.RSA,
},
apiv1.SHA384WithRSA: {
Kty: keyvault.RSA,
},
apiv1.SHA512WithRSA: {
Kty: keyvault.RSA,
},
apiv1.SHA256WithRSAPSS: {
Kty: keyvault.RSA,
},
apiv1.SHA384WithRSAPSS: {
Kty: keyvault.RSA,
},
apiv1.SHA512WithRSAPSS: {
Kty: keyvault.RSA,
},
apiv1.ECDSAWithSHA256: {
Kty: keyvault.EC,
Curve: keyvault.P256,
},
apiv1.ECDSAWithSHA384: {
Kty: keyvault.EC,
Curve: keyvault.P384,
},
apiv1.ECDSAWithSHA512: {
Kty: keyvault.EC,
Curve: keyvault.P521,
},
}
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// vaultResource is the value the client will use as audience.
const vaultResource = "https://vault.azure.net"
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// KeyVaultClient is the interface implemented by keyvault.BaseClient. It will
// be used for testing purposes.
type KeyVaultClient interface {
GetKey(ctx context.Context, vaultBaseURL string, keyName string, keyVersion string) (keyvault.KeyBundle, error)
CreateKey(ctx context.Context, vaultBaseURL string, keyName string, parameters keyvault.KeyCreateParameters) (keyvault.KeyBundle, error)
Sign(ctx context.Context, vaultBaseURL string, keyName string, keyVersion string, parameters keyvault.KeySignParameters) (keyvault.KeyOperationResult, error)
}
// KeyVault implements a KMS using Azure Key Vault.
//
// The URI format used in Azure Key Vault is the following:
//
// - azurekms:name=key-name;vault=vault-name
// - azurekms:name=key-name;vault=vault-name?version=key-version
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// - azurekms:name=key-name;vault=vault-name?hsm=true
//
// The scheme is "azurekms"; "name" is the key name; "vault" is the key vault
// name where the key is located; "version" is an optional parameter that
// defines the version of they key, if version is not given, the latest one will
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// be used; "hsm" defines if an HSM want to be used for this key, this is
// specially useful when this is used from `step`.
//
// TODO(mariano): The implementation is using /services/keyvault/v7.1/keyvault
// package, at some point Azure might create a keyvault client with all the
// functionality in /sdk/keyvault, we should migrate to that once available.
type KeyVault struct {
baseClient KeyVaultClient
}
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var createClient = func(ctx context.Context, opts apiv1.Options) (KeyVaultClient, error) {
// Attempt to authorize with the following methods:
// 1. Environment variables.
// - Client credentials
// - Client certificate
// - Username and password
// - MSI
// 2. Using Azure CLI 2.0 on local development.
authorizer, err := auth.NewAuthorizerFromEnvironmentWithResource(vaultResource)
if err != nil {
authorizer, err = auth.NewAuthorizerFromCLIWithResource(vaultResource)
if err != nil {
return nil, errors.Wrap(err, "error getting authorizer for key vault")
}
}
baseClient := keyvault.New()
baseClient.Authorizer = authorizer
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return &baseClient, nil
}
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// New initializes a new KMS implemented using Azure Key Vault.
func New(ctx context.Context, opts apiv1.Options) (*KeyVault, error) {
baseClient, err := createClient(ctx, opts)
if err != nil {
return nil, err
}
return &KeyVault{
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baseClient: baseClient,
}, nil
}
// GetPublicKey loads a public key from Azure Key Vault by its resource name.
func (k *KeyVault) GetPublicKey(req *apiv1.GetPublicKeyRequest) (crypto.PublicKey, error) {
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if req.Name == "" {
return nil, errors.New("getPublicKeyRequest 'name' cannot be empty")
}
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vault, name, version, _, err := parseKeyName(req.Name)
if err != nil {
return nil, err
}
ctx, cancel := defaultContext()
defer cancel()
resp, err := k.baseClient.GetKey(ctx, vaultBaseURL(vault), name, version)
if err != nil {
return nil, errors.Wrap(err, "keyVault GetKey failed")
}
return convertKey(resp.Key)
}
// CreateKey creates a asymmetric key in Azure Key Vault.
func (k *KeyVault) CreateKey(req *apiv1.CreateKeyRequest) (*apiv1.CreateKeyResponse, error) {
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if req.Name == "" {
return nil, errors.New("createKeyRequest 'name' cannot be empty")
}
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vault, name, _, hsm, err := parseKeyName(req.Name)
if err != nil {
return nil, err
}
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// Override protection level to HSM only if it's not specified, and is given
// in the uri.
protectionLevel := req.ProtectionLevel
if protectionLevel == apiv1.UnspecifiedProtectionLevel && hsm {
protectionLevel = apiv1.HSM
}
kt, ok := signatureAlgorithmMapping[req.SignatureAlgorithm]
if !ok {
return nil, errors.Errorf("keyVault does not support signature algorithm '%s'", req.SignatureAlgorithm)
}
var keySize *int32
if kt.Kty == keyvault.RSA || kt.Kty == keyvault.RSAHSM {
switch req.Bits {
case 2048:
keySize = &value2048
case 0, 3072:
keySize = &value3072
case 4096:
keySize = &value4096
default:
return nil, errors.Errorf("keyVault does not support key size %d", req.Bits)
}
}
created := date.UnixTime(now())
ctx, cancel := defaultContext()
defer cancel()
resp, err := k.baseClient.CreateKey(ctx, vaultBaseURL(vault), name, keyvault.KeyCreateParameters{
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Kty: kt.KeyType(protectionLevel),
KeySize: keySize,
Curve: kt.Curve,
KeyOps: &[]keyvault.JSONWebKeyOperation{
keyvault.Sign, keyvault.Verify,
},
KeyAttributes: &keyvault.KeyAttributes{
Enabled: &valueTrue,
Created: &created,
NotBefore: &created,
},
})
if err != nil {
return nil, errors.Wrap(err, "keyVault CreateKey failed")
}
publicKey, err := convertKey(resp.Key)
if err != nil {
return nil, err
}
keyURI := getKeyName(vault, name, resp)
return &apiv1.CreateKeyResponse{
Name: keyURI,
PublicKey: publicKey,
CreateSignerRequest: apiv1.CreateSignerRequest{
SigningKey: keyURI,
},
}, nil
}
// CreateSigner returns a crypto.Signer from a previously created asymmetric key.
func (k *KeyVault) CreateSigner(req *apiv1.CreateSignerRequest) (crypto.Signer, error) {
if req.SigningKey == "" {
return nil, errors.New("createSignerRequest 'signingKey' cannot be empty")
}
return NewSigner(k.baseClient, req.SigningKey)
}
// Close closes the client connection to the Azure Key Vault. This is a noop.
func (k *KeyVault) Close() error {
return nil
}
// ValidateName validates that the given string is a valid URI.
func (k *KeyVault) ValidateName(s string) error {
_, _, _, _, err := parseKeyName(s)
return err
}