mirror of
https://github.com/minio/minio.git
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a6c146bd00
``` mc admin config set alias/ storage_class standard=EC:3 ``` should only succeed if parity ratio is valid for all server pools, if not we should fail proactively. This PR also needs to bring other changes now that we need to cater for variadic drive counts per pool. Bonus fixes also various bugs reproduced with - GetObjectWithPartNumber() - CopyObjectPartWithOffsets() - CopyObjectWithMetadata() - PutObjectPart,PutObject with truncated streams
498 lines
14 KiB
Go
498 lines
14 KiB
Go
// MinIO Cloud Storage, (C) 2019-2020 MinIO, Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package crypto
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import (
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"bytes"
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"context"
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"crypto/tls"
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"crypto/x509"
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"errors"
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"fmt"
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"io"
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"io/ioutil"
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"net/http"
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"net/url"
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"os"
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"path/filepath"
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"strings"
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"time"
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jsoniter "github.com/json-iterator/go"
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xhttp "github.com/minio/minio/cmd/http"
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xnet "github.com/minio/minio/pkg/net"
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)
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var json = jsoniter.ConfigCompatibleWithStandardLibrary
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// ErrKESKeyExists is the error returned a KES server
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// when a master key does exist.
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var ErrKESKeyExists = NewKESError(http.StatusBadRequest, "key does already exist")
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// KesConfig contains the configuration required
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// to initialize and connect to a kes server.
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type KesConfig struct {
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Enabled bool
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// The KES server endpoints.
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Endpoint []string
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// The path to the TLS private key used
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// by MinIO to authenticate to the kes
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// server during the TLS handshake (mTLS).
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KeyFile string
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// The path to the TLS certificate used
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// by MinIO to authenticate to the kes
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// server during the TLS handshake (mTLS).
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//
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// The kes server will also allow or deny
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// access based on this certificate.
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// In particular, the kes server will
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// lookup the policy that corresponds to
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// the identity in this certificate.
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CertFile string
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// Path to a file or directory containing
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// the CA certificate(s) that issued / will
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// issue certificates for the kes server.
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//
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// This is required if the TLS certificate
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// of the kes server has not been issued
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// (e.g. b/c it's self-signed) by a CA that
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// MinIO trusts.
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CAPath string
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// The default key ID returned by KMS.KeyID().
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DefaultKeyID string
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// The HTTP transport configuration for
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// the KES client.
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Transport *http.Transport
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}
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// Verify verifies if the kes configuration is correct
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func (k KesConfig) Verify() (err error) {
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switch {
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case len(k.Endpoint) == 0:
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err = Errorf("crypto: missing kes endpoint")
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case k.CertFile == "":
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err = Errorf("crypto: missing cert file")
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case k.KeyFile == "":
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err = Errorf("crypto: missing key file")
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case k.DefaultKeyID == "":
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err = Errorf("crypto: missing default key id")
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}
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return err
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}
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type kesService struct {
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client *kesClient
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endpoints []string
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defaultKeyID string
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}
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// NewKes returns a new kes KMS client. The returned KMS
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// uses the X.509 certificate to authenticate itself to
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// the kes server available at address.
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//
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// The defaultKeyID is the key ID returned when calling
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// KMS.KeyID().
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func NewKes(cfg KesConfig) (KMS, error) {
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cert, err := tls.LoadX509KeyPair(cfg.CertFile, cfg.KeyFile)
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if err != nil {
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return nil, err
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}
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if cfg.Transport.TLSClientConfig != nil && cfg.Transport.TLSClientConfig.RootCAs != nil {
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if err = loadCACertificates(cfg.CAPath, cfg.Transport.TLSClientConfig.RootCAs); err != nil {
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return nil, err
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}
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} else {
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rootCAs, _ := x509.SystemCertPool()
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if rootCAs == nil {
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// In some systems (like Windows) system cert pool is
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// not supported or no certificates are present on the
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// system - so we create a new cert pool.
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rootCAs = x509.NewCertPool()
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}
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if err = loadCACertificates(cfg.CAPath, rootCAs); err != nil {
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return nil, err
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}
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if cfg.Transport.TLSClientConfig == nil {
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cfg.Transport.TLSClientConfig = &tls.Config{
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RootCAs: rootCAs,
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}
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} else {
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cfg.Transport.TLSClientConfig.RootCAs = rootCAs
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}
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}
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cfg.Transport.TLSClientConfig.Certificates = []tls.Certificate{cert}
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cfg.Transport.TLSClientConfig.NextProtos = []string{"h2"}
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return &kesService{
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client: &kesClient{
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endpoints: cfg.Endpoint,
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httpClient: http.Client{
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Transport: cfg.Transport,
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},
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},
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endpoints: cfg.Endpoint,
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defaultKeyID: cfg.DefaultKeyID,
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}, nil
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}
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// DefaultKeyID returns the default key ID that should be
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// used for SSE-S3 or SSE-KMS when the S3 client does not
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// provide an explicit key ID.
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func (kes *kesService) DefaultKeyID() string {
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return kes.defaultKeyID
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}
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// Info returns some information about the KES,
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// configuration - like the endpoint or authentication
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// method.
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func (kes *kesService) Info() KMSInfo {
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return KMSInfo{
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Endpoints: kes.endpoints,
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Name: kes.DefaultKeyID(),
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AuthType: "TLS",
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}
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}
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// CreateKey tries to create a new master key with the given keyID.
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func (kes *kesService) CreateKey(keyID string) error { return kes.client.CreateKey(keyID) }
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// GenerateKey returns a new plaintext key, generated by the KMS,
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// and a sealed version of this plaintext key encrypted using the
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// named key referenced by keyID. It also binds the generated key
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// cryptographically to the provided context.
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func (kes *kesService) GenerateKey(keyID string, ctx Context) (key [32]byte, sealedKey []byte, err error) {
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context := ctx.AppendTo(make([]byte, 0, 128))
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var plainKey []byte
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plainKey, sealedKey, err = kes.client.GenerateDataKey(keyID, context)
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if err != nil {
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return key, nil, err
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}
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if len(plainKey) != len(key) {
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return key, nil, Errorf("crypto: received invalid plaintext key size from KMS")
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}
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copy(key[:], plainKey)
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return key, sealedKey, nil
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}
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// UnsealKey returns the decrypted sealedKey as plaintext key.
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// Therefore it sends the sealedKey to the KMS which decrypts
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// it using the named key referenced by keyID and responses with
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// the plaintext key.
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//
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// The context must be same context as the one provided while
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// generating the plaintext key / sealedKey.
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func (kes *kesService) UnsealKey(keyID string, sealedKey []byte, ctx Context) (key [32]byte, err error) {
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context := ctx.AppendTo(make([]byte, 0, 128))
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var plainKey []byte
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plainKey, err = kes.client.DecryptDataKey(keyID, sealedKey, context)
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if err != nil {
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return key, err
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}
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if len(plainKey) != len(key) {
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return key, Errorf("crypto: received invalid plaintext key size from KMS")
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}
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copy(key[:], plainKey)
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return key, nil
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}
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// kesClient implements the bare minimum functionality needed for
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// MinIO to talk to a KES server. In particular, it implements
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// • CreateKey (API: /v1/key/create/)
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// • GenerateDataKey (API: /v1/key/generate/)
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// • DecryptDataKey (API: /v1/key/decrypt/)
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type kesClient struct {
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endpoints []string
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httpClient http.Client
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}
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// CreateKey tries to create a new cryptographic key with
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// the specified name.
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//
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// The key will be generated by the server. The client
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// application does not have the cryptographic key at
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// any point in time.
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func (c *kesClient) CreateKey(name string) error {
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path := fmt.Sprintf("/v1/key/create/%s", url.PathEscape(name))
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_, err := c.postRetry(path, nil, 0) // No request body and no response expected
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if err != nil {
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return err
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}
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return nil
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}
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// GenerateDataKey requests a new data key from the KES server.
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// On success, the KES server will respond with the plaintext key
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// and the ciphertext key as the plaintext key encrypted with
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// the key specified by name.
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//
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// The optional context is crytpo. bound to the generated data key
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// such that you have to provide the same context when decrypting
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// the data key.
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func (c *kesClient) GenerateDataKey(name string, context []byte) ([]byte, []byte, error) {
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type Request struct {
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Context []byte `json:"context"`
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}
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type Response struct {
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Plaintext []byte `json:"plaintext"`
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Ciphertext []byte `json:"ciphertext"`
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}
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body, err := json.Marshal(Request{
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Context: context,
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})
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if err != nil {
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return nil, nil, err
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}
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const limit = 1 << 20 // A plaintext/ciphertext key pair will never be larger than 1 MB
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path := fmt.Sprintf("/v1/key/generate/%s", url.PathEscape(name))
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resp, err := c.postRetry(path, bytes.NewReader(body), limit)
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if err != nil {
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return nil, nil, err
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}
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var response Response
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if err = json.NewDecoder(resp).Decode(&response); err != nil {
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return nil, nil, err
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}
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return response.Plaintext, response.Ciphertext, nil
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}
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// GenerateDataKey decrypts an encrypted data key with the key
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// specified by name by talking to the KES server.
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// On success, the KES server will respond with the plaintext key.
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//
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// The optional context must match the value you provided when
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// generating the data key.
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func (c *kesClient) DecryptDataKey(name string, ciphertext, context []byte) ([]byte, error) {
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type Request struct {
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Ciphertext []byte `json:"ciphertext"`
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Context []byte `json:"context,omitempty"`
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}
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type Response struct {
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Plaintext []byte `json:"plaintext"`
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}
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body, err := json.Marshal(Request{
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Ciphertext: ciphertext,
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Context: context,
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})
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if err != nil {
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return nil, err
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}
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const limit = 1 << 20 // A data key will never be larger than 1 MiB
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path := fmt.Sprintf("/v1/key/decrypt/%s", url.PathEscape(name))
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resp, err := c.postRetry(path, bytes.NewReader(body), limit)
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if err != nil {
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return nil, err
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}
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var response Response
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if err = json.NewDecoder(resp).Decode(&response); err != nil {
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return nil, err
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}
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return response.Plaintext, nil
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}
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// NewKESError returns a new KES API error with the given
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// HTTP status code and error message.
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//
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// Two errors with the same status code and
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// error message are equal:
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// e1 == e2 // true.
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func NewKESError(code int, text string) error {
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return kesError{
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code: code,
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message: text,
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}
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}
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type kesError struct {
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code int
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message string
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}
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// Status returns the HTTP status code of the error.
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func (e kesError) Status() int { return e.code }
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// Status returns the error message of the error.
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func (e kesError) Error() string { return e.message }
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func parseErrorResponse(resp *http.Response) error {
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if resp == nil || resp.StatusCode < 400 {
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return nil
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}
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if resp.Body == nil {
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return NewKESError(resp.StatusCode, "")
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}
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defer resp.Body.Close()
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const MaxBodySize = 1 << 20
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var size = resp.ContentLength
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if size < 0 || size > MaxBodySize {
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size = MaxBodySize
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}
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contentType := strings.TrimSpace(resp.Header.Get("Content-Type"))
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if strings.HasPrefix(contentType, "application/json") {
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type Response struct {
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Message string `json:"message"`
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}
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var response Response
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if err := json.NewDecoder(io.LimitReader(resp.Body, size)).Decode(&response); err != nil {
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return err
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}
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return NewKESError(resp.StatusCode, response.Message)
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}
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var sb strings.Builder
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if _, err := io.Copy(&sb, io.LimitReader(resp.Body, size)); err != nil {
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return err
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}
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return NewKESError(resp.StatusCode, sb.String())
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}
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func (c *kesClient) post(url string, body io.Reader, limit int64) (io.Reader, error) {
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ctx, cancel := context.WithTimeout(context.Background(), 3*time.Second)
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defer cancel()
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req, err := http.NewRequestWithContext(ctx, http.MethodPost, url, body)
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if err != nil {
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return nil, err
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}
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req.Header.Set("Content-Type", "application/json")
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resp, err := c.httpClient.Do(req)
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if err != nil {
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return nil, err
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}
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// Drain the entire body to make sure we have re-use connections
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defer xhttp.DrainBody(resp.Body)
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if resp.StatusCode != http.StatusOK {
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return nil, parseErrorResponse(resp)
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}
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// We have to copy the response body due to draining.
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var respBody bytes.Buffer
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if _, err = io.Copy(&respBody, io.LimitReader(resp.Body, limit)); err != nil {
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return nil, err
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}
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return &respBody, nil
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}
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func (c *kesClient) postRetry(path string, body io.ReadSeeker, limit int64) (io.Reader, error) {
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retryMax := 1 + len(c.endpoints)
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for i := 0; ; i++ {
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if body != nil {
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body.Seek(0, io.SeekStart) // seek to the beginning of the body.
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}
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response, err := c.post(c.endpoints[i%len(c.endpoints)]+path, body, limit)
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if err == nil {
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return response, nil
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}
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// If the error is not temp. / retryable => fail the request immediately.
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if !xnet.IsNetworkOrHostDown(err, false) &&
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!errors.Is(err, io.EOF) &&
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!errors.Is(err, io.ErrUnexpectedEOF) &&
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!errors.Is(err, context.DeadlineExceeded) {
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return nil, err
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}
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if remain := retryMax - i; remain <= 0 { // Fail if we exceeded our retry limit.
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return response, err
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}
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// If there are more KES instances then skip waiting and
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// try the next endpoint directly.
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if i < len(c.endpoints) {
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continue
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}
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<-time.After(LinearJitterBackoff(retryWaitMin, retryWaitMax, i))
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}
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}
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// loadCACertificates returns a new CertPool
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// that contains all system root CA certificates
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// and any PEM-encoded certificate(s) found at
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// path.
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//
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// If path is a file, loadCACertificates will
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// try to parse it as PEM-encoded certificate.
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// If this fails, it returns an error.
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//
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// If path is a directory it tries to parse each
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// file as PEM-encoded certificate and add it to
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// the CertPool. If a file is not a PEM certificate
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// it will be ignored.
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func loadCACertificates(path string, rootCAs *x509.CertPool) error {
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if path == "" {
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return nil
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}
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stat, err := os.Stat(path)
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if err != nil {
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if os.IsNotExist(err) || os.IsPermission(err) {
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return nil
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}
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return Errorf("crypto: cannot open '%s': %v", path, err)
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}
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// If path is a file, parse as PEM-encoded certifcate
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// and try to add it to the CertPool. If this fails
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// return an error.
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if !stat.IsDir() {
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cert, err := ioutil.ReadFile(path)
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if err != nil {
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return err
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}
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if !rootCAs.AppendCertsFromPEM(cert) {
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return Errorf("crypto: '%s' is not a valid PEM-encoded certificate", path)
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}
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return nil
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}
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// If path is a directory then try
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// to parse each file as PEM-encoded
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// certificate and add it to the CertPool.
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// If a file is not a PEM-encoded certificate
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// we ignore it.
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files, err := ioutil.ReadDir(path)
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if err != nil {
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return err
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}
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for _, file := range files {
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cert, err := ioutil.ReadFile(filepath.Join(path, file.Name()))
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if err != nil {
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continue // ignore files which are not readable
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}
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rootCAs.AppendCertsFromPEM(cert) // ignore files which are not PEM certtificates
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}
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return nil
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}
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