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424 lines
12 KiB
Go
424 lines
12 KiB
Go
// Copyright (c) 2015-2021 MinIO, Inc.
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//
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// This file is part of MinIO Object Storage stack
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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package kms
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import (
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"context"
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"errors"
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"net/http"
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"slices"
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"sync/atomic"
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"time"
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"github.com/minio/kms-go/kms"
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"github.com/minio/madmin-go/v3"
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)
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// ListRequest is a structure containing fields
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// and options for listing keys.
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type ListRequest struct {
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// Prefix is an optional prefix for filtering names.
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// A list operation only returns elements that match
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// this prefix.
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// An empty prefix matches any value.
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Prefix string
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// ContinueAt is the name of the element from where
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// a listing should continue. It allows paginated
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// listings.
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ContinueAt string
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// Limit limits the number of elements returned by
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// a single list operation. If <= 0, a reasonable
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// limit is selected automatically.
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Limit int
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}
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// CreateKeyRequest is a structure containing fields
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// and options for creating keys.
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type CreateKeyRequest struct {
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// Name is the name of the key that gets created.
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Name string
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}
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// DeleteKeyRequest is a structure containing fields
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// and options for deleting keys.
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type DeleteKeyRequest struct {
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// Name is the name of the key that gets deleted.
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Name string
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}
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// GenerateKeyRequest is a structure containing fields
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// and options for generating data keys.
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type GenerateKeyRequest struct {
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// Name is the name of the master key used to generate
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// the data key.
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Name string
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// AssociatedData is optional data that is cryptographically
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// associated with the generated data key. The same data
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// must be provided when decrypting an encrypted data key.
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//
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// Typically, associated data is some metadata about the
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// data key. For example, the name of the object for which
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// the data key is used.
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AssociatedData Context
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}
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// DecryptRequest is a structure containing fields
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// and options for decrypting data.
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type DecryptRequest struct {
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// Name is the name of the master key used decrypt
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// the ciphertext.
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Name string
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// Version is the version of the master used for
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// decryption. If empty, the latest key version
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// is used.
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Version int
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// Ciphertext is the encrypted data that gets
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// decrypted.
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Ciphertext []byte
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// AssociatedData is the crypto. associated data.
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// It must match the data used during encryption
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// or data key generation.
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AssociatedData Context
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}
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// MACRequest is a structure containing fields
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// and options for generating message authentication
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// codes (MAC).
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type MACRequest struct {
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// Name is the name of the master key used decrypt
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// the ciphertext.
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Name string
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Version int
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Message []byte
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}
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// Metrics is a structure containing KMS metrics.
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type Metrics struct {
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ReqOK uint64 `json:"kms_req_success"` // Number of requests that succeeded
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ReqErr uint64 `json:"kms_req_error"` // Number of requests that failed with a defined error
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ReqFail uint64 `json:"kms_req_failure"` // Number of requests that failed with an undefined error
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Latency map[time.Duration]uint64 `json:"kms_resp_time"` // Latency histogram of all requests
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}
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var defaultLatencyBuckets = []time.Duration{
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10 * time.Millisecond,
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50 * time.Millisecond,
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100 * time.Millisecond,
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250 * time.Millisecond,
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500 * time.Millisecond,
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1000 * time.Millisecond, // 1s
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1500 * time.Millisecond,
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3000 * time.Millisecond,
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5000 * time.Millisecond,
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10000 * time.Millisecond, // 10s
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}
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// KMS is a connection to a key management system.
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// It implements various cryptographic operations,
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// like data key generation and decryption.
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type KMS struct {
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// Type identifies the KMS implementation. Either,
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// MinKMS, MinKES or Builtin.
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Type Type
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// The default key, used for generating new data keys
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// if no explicit GenerateKeyRequest.Name is provided.
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DefaultKey string
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conn conn // Connection to the KMS
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// Metrics
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reqOK, reqErr, reqFail atomic.Uint64
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latencyBuckets []time.Duration // expected to be sorted
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latency []atomic.Uint64
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}
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// Version returns version information about the KMS.
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//
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// TODO(aead): refactor this API call since it does not account
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// for multiple KMS/KES servers.
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func (k *KMS) Version(ctx context.Context) (string, error) {
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return k.conn.Version(ctx)
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}
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// APIs returns a list of KMS server APIs.
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//
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// TODO(aead): remove this API since it's hardly useful.
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func (k *KMS) APIs(ctx context.Context) ([]madmin.KMSAPI, error) {
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return k.conn.APIs(ctx)
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}
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// Metrics returns a current snapshot of the KMS metrics.
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func (k *KMS) Metrics(ctx context.Context) (*Metrics, error) {
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latency := make(map[time.Duration]uint64, len(k.latencyBuckets))
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for i, b := range k.latencyBuckets {
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latency[b] = k.latency[i].Load()
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}
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return &Metrics{
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ReqOK: k.reqOK.Load(),
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ReqErr: k.reqErr.Load(),
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ReqFail: k.reqFail.Load(),
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Latency: latency,
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}, nil
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}
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// Status returns status information about the KMS.
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//
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// TODO(aead): refactor this API call since it does not account
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// for multiple KMS/KES servers.
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func (k *KMS) Status(ctx context.Context) (*madmin.KMSStatus, error) {
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endpoints, err := k.conn.Status(ctx)
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if err != nil {
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return nil, err
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}
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return &madmin.KMSStatus{
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Name: k.Type.String(),
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DefaultKeyID: k.DefaultKey,
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Endpoints: endpoints,
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}, nil
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}
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// CreateKey creates the master key req.Name. It returns
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// ErrKeyExists if the key already exists.
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func (k *KMS) CreateKey(ctx context.Context, req *CreateKeyRequest) error {
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start := time.Now()
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err := k.conn.CreateKey(ctx, req)
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k.updateMetrics(err, time.Since(start))
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return err
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}
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// ListKeys returns a list of keys with metadata and a potential
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// next name from where to continue a subsequent listing.
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func (k *KMS) ListKeys(ctx context.Context, req *ListRequest) ([]madmin.KMSKeyInfo, string, error) {
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if req.Prefix == "*" {
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req.Prefix = ""
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}
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return k.conn.ListKeys(ctx, req)
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}
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// GenerateKey generates a new data key using the master key req.Name.
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// It returns ErrKeyNotFound if the key does not exist. If req.Name is
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// empty, the KMS default key is used.
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func (k *KMS) GenerateKey(ctx context.Context, req *GenerateKeyRequest) (DEK, error) {
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if req.Name == "" {
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req.Name = k.DefaultKey
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}
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start := time.Now()
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dek, err := k.conn.GenerateKey(ctx, req)
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k.updateMetrics(err, time.Since(start))
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return dek, err
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}
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// Decrypt decrypts a ciphertext using the master key req.Name.
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// It returns ErrKeyNotFound if the key does not exist.
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func (k *KMS) Decrypt(ctx context.Context, req *DecryptRequest) ([]byte, error) {
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start := time.Now()
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plaintext, err := k.conn.Decrypt(ctx, req)
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k.updateMetrics(err, time.Since(start))
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return plaintext, err
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}
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// MAC generates the checksum of the given req.Message using the key
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// with the req.Name at the KMS.
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func (k *KMS) MAC(ctx context.Context, req *MACRequest) ([]byte, error) {
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if req.Name == "" {
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req.Name = k.DefaultKey
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}
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start := time.Now()
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mac, err := k.conn.MAC(ctx, req)
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k.updateMetrics(err, time.Since(start))
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return mac, err
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}
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func (k *KMS) updateMetrics(err error, latency time.Duration) {
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// First, update the latency histogram
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// Therefore, find the first bucket that holds the counter for
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// requests with a latency at least as large as the given request
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// latency and update its and all subsequent counters.
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bucket := slices.IndexFunc(k.latencyBuckets, func(b time.Duration) bool { return latency < b })
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if bucket < 0 {
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bucket = len(k.latencyBuckets) - 1
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}
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for i := bucket; i < len(k.latency); i++ {
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k.latency[i].Add(1)
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}
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// Next, update the request counters
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if err == nil {
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k.reqOK.Add(1)
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return
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}
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var s3Err Error
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if errors.As(err, &s3Err) && s3Err.Code >= http.StatusInternalServerError {
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k.reqFail.Add(1)
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} else {
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k.reqErr.Add(1)
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}
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}
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type kmsConn struct {
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endpoints []string
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enclave string
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defaultKey string
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client *kms.Client
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}
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func (c *kmsConn) Version(ctx context.Context) (string, error) {
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resp, err := c.client.Version(ctx, &kms.VersionRequest{})
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if len(resp) == 0 && err != nil {
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return "", err
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}
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return resp[0].Version, nil
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}
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func (c *kmsConn) APIs(ctx context.Context) ([]madmin.KMSAPI, error) {
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return nil, ErrNotSupported
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}
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func (c *kmsConn) Status(ctx context.Context) (map[string]madmin.ItemState, error) {
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stat := make(map[string]madmin.ItemState, len(c.endpoints))
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resp, err := c.client.Version(ctx, &kms.VersionRequest{})
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for _, r := range resp {
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stat[r.Host] = madmin.ItemOnline
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}
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for _, e := range kms.UnwrapHostErrors(err) {
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stat[e.Host] = madmin.ItemOffline
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}
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return stat, nil
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}
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func (c *kmsConn) ListKeys(ctx context.Context, req *ListRequest) ([]madmin.KMSKeyInfo, string, error) {
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resp, err := c.client.ListKeys(ctx, &kms.ListRequest{
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Enclave: c.enclave,
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Prefix: req.Prefix,
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ContinueAt: req.ContinueAt,
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Limit: req.Limit,
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})
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if err != nil {
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return nil, "", errListingKeysFailed(err)
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}
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keyInfos := make([]madmin.KMSKeyInfo, len(resp.Items))
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for i, v := range resp.Items {
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keyInfos[i].Name = v.Name
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keyInfos[i].CreatedAt = v.CreatedAt
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keyInfos[i].CreatedBy = string(v.CreatedBy)
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}
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return keyInfos, resp.ContinueAt, nil
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}
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func (c *kmsConn) CreateKey(ctx context.Context, req *CreateKeyRequest) error {
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if err := c.client.CreateKey(ctx, &kms.CreateKeyRequest{
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Enclave: c.enclave,
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Name: req.Name,
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}); err != nil {
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if errors.Is(err, kms.ErrKeyExists) {
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return ErrKeyExists
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}
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if errors.Is(err, kms.ErrPermission) {
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return ErrPermission
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}
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return errKeyCreationFailed(err)
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}
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return nil
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}
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func (c *kmsConn) GenerateKey(ctx context.Context, req *GenerateKeyRequest) (DEK, error) {
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aad, err := req.AssociatedData.MarshalText()
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if err != nil {
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return DEK{}, err
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}
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name := req.Name
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if name == "" {
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name = c.defaultKey
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}
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resp, err := c.client.GenerateKey(ctx, &kms.GenerateKeyRequest{
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Enclave: c.enclave,
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Name: name,
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AssociatedData: aad,
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Length: 32,
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})
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if err != nil {
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if errors.Is(err, kms.ErrKeyNotFound) {
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return DEK{}, ErrKeyNotFound
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}
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if errors.Is(err, kms.ErrPermission) {
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return DEK{}, ErrPermission
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}
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return DEK{}, errKeyGenerationFailed(err)
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}
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return DEK{
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KeyID: name,
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Version: resp.Version,
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Plaintext: resp.Plaintext,
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Ciphertext: resp.Ciphertext,
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}, nil
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}
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func (c *kmsConn) Decrypt(ctx context.Context, req *DecryptRequest) ([]byte, error) {
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aad, err := req.AssociatedData.MarshalText()
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if err != nil {
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return nil, err
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}
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ciphertext, _ := parseCiphertext(req.Ciphertext)
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resp, err := c.client.Decrypt(ctx, &kms.DecryptRequest{
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Enclave: c.enclave,
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Name: req.Name,
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Ciphertext: ciphertext,
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AssociatedData: aad,
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})
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if err != nil {
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if errors.Is(err, kms.ErrKeyNotFound) {
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return nil, ErrKeyNotFound
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}
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if errors.Is(err, kms.ErrPermission) {
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return nil, ErrPermission
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}
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return nil, errDecryptionFailed(err)
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}
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return resp.Plaintext, nil
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}
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// MAC generates the checksum of the given req.Message using the key
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// with the req.Name at the KMS.
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func (*kmsConn) MAC(context.Context, *MACRequest) ([]byte, error) {
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return nil, ErrNotSupported
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}
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