ceph-csi/vendor/k8s.io/client-go/transport/transport.go

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/*
Copyright 2015 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package transport
import (
"context"
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"crypto/tls"
"crypto/x509"
"encoding/pem"
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"fmt"
"net/http"
"os"
"sync"
"time"
utilnet "k8s.io/apimachinery/pkg/util/net"
"k8s.io/klog/v2"
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)
// New returns an http.RoundTripper that will provide the authentication
// or transport level security defined by the provided Config.
func New(config *Config) (http.RoundTripper, error) {
// Set transport level security
if config.Transport != nil && (config.HasCA() || config.HasCertAuth() || config.HasCertCallback() || config.TLS.Insecure) {
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return nil, fmt.Errorf("using a custom transport with TLS certificate options or the insecure flag is not allowed")
}
if !isValidHolders(config) {
return nil, fmt.Errorf("misconfigured holder for dialer or cert callback")
}
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var (
rt http.RoundTripper
err error
)
if config.Transport != nil {
rt = config.Transport
} else {
rt, err = tlsCache.get(config)
if err != nil {
return nil, err
}
}
return HTTPWrappersForConfig(config, rt)
}
func isValidHolders(config *Config) bool {
if config.TLS.GetCertHolder != nil && config.TLS.GetCertHolder.GetCert == nil {
return false
}
if config.DialHolder != nil && config.DialHolder.Dial == nil {
return false
}
return true
}
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// TLSConfigFor returns a tls.Config that will provide the transport level security defined
// by the provided Config. Will return nil if no transport level security is requested.
func TLSConfigFor(c *Config) (*tls.Config, error) {
if !(c.HasCA() || c.HasCertAuth() || c.HasCertCallback() || c.TLS.Insecure || len(c.TLS.ServerName) > 0 || len(c.TLS.NextProtos) > 0) {
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return nil, nil
}
if c.HasCA() && c.TLS.Insecure {
return nil, fmt.Errorf("specifying a root certificates file with the insecure flag is not allowed")
}
if err := loadTLSFiles(c); err != nil {
return nil, err
}
tlsConfig := &tls.Config{
// Can't use SSLv3 because of POODLE and BEAST
// Can't use TLSv1.0 because of POODLE and BEAST using CBC cipher
// Can't use TLSv1.1 because of RC4 cipher usage
MinVersion: tls.VersionTLS12,
InsecureSkipVerify: c.TLS.Insecure,
ServerName: c.TLS.ServerName,
NextProtos: c.TLS.NextProtos,
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}
if c.HasCA() {
/*
kubernetes mutual (2-way) x509 between client and apiserver:
1. apiserver sending its apiserver certificate along with its publickey to client
>2. client verifies the apiserver certificate sent against its cluster certificate authority data
3. client sending its client certificate along with its public key to the apiserver
4. apiserver verifies the client certificate sent against its cluster certificate authority data
description:
here, with this block,
cluster certificate authority data gets loaded into TLS before the handshake process
for client to later during the handshake verify the apiserver certificate
normal args related to this stage:
--certificate-authority='':
Path to a cert file for the certificate authority
(retrievable from "kubectl options" command)
(suggested by @deads2k)
see also:
- for the step 1, see: staging/src/k8s.io/apiserver/pkg/server/options/serving.go
- for the step 3, see: a few lines below in this file
- for the step 4, see: staging/src/k8s.io/apiserver/pkg/authentication/request/x509/x509.go
*/
rootCAs, err := rootCertPool(c.TLS.CAData)
if err != nil {
return nil, fmt.Errorf("unable to load root certificates: %w", err)
}
tlsConfig.RootCAs = rootCAs
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}
var staticCert *tls.Certificate
// Treat cert as static if either key or cert was data, not a file
if c.HasCertAuth() && !c.TLS.ReloadTLSFiles {
// If key/cert were provided, verify them before setting up
// tlsConfig.GetClientCertificate.
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cert, err := tls.X509KeyPair(c.TLS.CertData, c.TLS.KeyData)
if err != nil {
return nil, err
}
staticCert = &cert
}
var dynamicCertLoader func() (*tls.Certificate, error)
if c.TLS.ReloadTLSFiles {
dynamicCertLoader = cachingCertificateLoader(c.TLS.CertFile, c.TLS.KeyFile)
}
if c.HasCertAuth() || c.HasCertCallback() {
/*
kubernetes mutual (2-way) x509 between client and apiserver:
1. apiserver sending its apiserver certificate along with its publickey to client
2. client verifies the apiserver certificate sent against its cluster certificate authority data
>3. client sending its client certificate along with its public key to the apiserver
4. apiserver verifies the client certificate sent against its cluster certificate authority data
description:
here, with this callback function,
client certificate and pub key get loaded into TLS during the handshake process
for apiserver to later in the step 4 verify the client certificate
normal args related to this stage:
--client-certificate='':
Path to a client certificate file for TLS
--client-key='':
Path to a client key file for TLS
(retrievable from "kubectl options" command)
(suggested by @deads2k)
see also:
- for the step 1, see: staging/src/k8s.io/apiserver/pkg/server/options/serving.go
- for the step 2, see: a few lines above in this file
- for the step 4, see: staging/src/k8s.io/apiserver/pkg/authentication/request/x509/x509.go
*/
tlsConfig.GetClientCertificate = func(*tls.CertificateRequestInfo) (*tls.Certificate, error) {
// Note: static key/cert data always take precedence over cert
// callback.
if staticCert != nil {
return staticCert, nil
}
// key/cert files lead to ReloadTLSFiles being set - takes precedence over cert callback
if dynamicCertLoader != nil {
return dynamicCertLoader()
}
if c.HasCertCallback() {
cert, err := c.TLS.GetCertHolder.GetCert()
if err != nil {
return nil, err
}
// GetCert may return empty value, meaning no cert.
if cert != nil {
return cert, nil
}
}
// Both c.TLS.CertData/KeyData were unset and GetCert didn't return
// anything. Return an empty tls.Certificate, no client cert will
// be sent to the server.
return &tls.Certificate{}, nil
}
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}
return tlsConfig, nil
}
// loadTLSFiles copies the data from the CertFile, KeyFile, and CAFile fields into the CertData,
// KeyData, and CAFile fields, or returns an error. If no error is returned, all three fields are
// either populated or were empty to start.
func loadTLSFiles(c *Config) error {
var err error
c.TLS.CAData, err = dataFromSliceOrFile(c.TLS.CAData, c.TLS.CAFile)
if err != nil {
return err
}
// Check that we are purely loading from files
if len(c.TLS.CertFile) > 0 && len(c.TLS.CertData) == 0 && len(c.TLS.KeyFile) > 0 && len(c.TLS.KeyData) == 0 {
c.TLS.ReloadTLSFiles = true
}
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c.TLS.CertData, err = dataFromSliceOrFile(c.TLS.CertData, c.TLS.CertFile)
if err != nil {
return err
}
c.TLS.KeyData, err = dataFromSliceOrFile(c.TLS.KeyData, c.TLS.KeyFile)
return err
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}
// dataFromSliceOrFile returns data from the slice (if non-empty), or from the file,
// or an error if an error occurred reading the file
func dataFromSliceOrFile(data []byte, file string) ([]byte, error) {
if len(data) > 0 {
return data, nil
}
if len(file) > 0 {
fileData, err := os.ReadFile(file)
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if err != nil {
return []byte{}, err
}
return fileData, nil
}
return nil, nil
}
// rootCertPool returns nil if caData is empty. When passed along, this will mean "use system CAs".
// When caData is not empty, it will be the ONLY information used in the CertPool.
func rootCertPool(caData []byte) (*x509.CertPool, error) {
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// What we really want is a copy of x509.systemRootsPool, but that isn't exposed. It's difficult to build (see the go
// code for a look at the platform specific insanity), so we'll use the fact that RootCAs == nil gives us the system values
// It doesn't allow trusting either/or, but hopefully that won't be an issue
if len(caData) == 0 {
return nil, nil
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}
// if we have caData, use it
certPool := x509.NewCertPool()
if ok := certPool.AppendCertsFromPEM(caData); !ok {
return nil, createErrorParsingCAData(caData)
}
return certPool, nil
}
// createErrorParsingCAData ALWAYS returns an error. We call it because know we failed to AppendCertsFromPEM
// but we don't know the specific error because that API is just true/false
func createErrorParsingCAData(pemCerts []byte) error {
for len(pemCerts) > 0 {
var block *pem.Block
block, pemCerts = pem.Decode(pemCerts)
if block == nil {
return fmt.Errorf("unable to parse bytes as PEM block")
}
if block.Type != "CERTIFICATE" || len(block.Headers) != 0 {
continue
}
if _, err := x509.ParseCertificate(block.Bytes); err != nil {
return fmt.Errorf("failed to parse certificate: %w", err)
}
}
return fmt.Errorf("no valid certificate authority data seen")
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}
// WrapperFunc wraps an http.RoundTripper when a new transport
// is created for a client, allowing per connection behavior
// to be injected.
type WrapperFunc func(rt http.RoundTripper) http.RoundTripper
// Wrappers accepts any number of wrappers and returns a wrapper
// function that is the equivalent of calling each of them in order. Nil
// values are ignored, which makes this function convenient for incrementally
// wrapping a function.
func Wrappers(fns ...WrapperFunc) WrapperFunc {
if len(fns) == 0 {
return nil
}
// optimize the common case of wrapping a possibly nil transport wrapper
// with an additional wrapper
if len(fns) == 2 && fns[0] == nil {
return fns[1]
}
return func(rt http.RoundTripper) http.RoundTripper {
base := rt
for _, fn := range fns {
if fn != nil {
base = fn(base)
}
}
return base
}
}
// ContextCanceller prevents new requests after the provided context is finished.
// err is returned when the context is closed, allowing the caller to provide a context
// appropriate error.
func ContextCanceller(ctx context.Context, err error) WrapperFunc {
return func(rt http.RoundTripper) http.RoundTripper {
return &contextCanceller{
ctx: ctx,
rt: rt,
err: err,
}
}
}
type contextCanceller struct {
ctx context.Context
rt http.RoundTripper
err error
}
func (b *contextCanceller) RoundTrip(req *http.Request) (*http.Response, error) {
select {
case <-b.ctx.Done():
return nil, b.err
default:
return b.rt.RoundTrip(req)
}
}
func tryCancelRequest(rt http.RoundTripper, req *http.Request) {
type canceler interface {
CancelRequest(*http.Request)
}
switch rt := rt.(type) {
case canceler:
rt.CancelRequest(req)
case utilnet.RoundTripperWrapper:
tryCancelRequest(rt.WrappedRoundTripper(), req)
default:
klog.Warningf("Unable to cancel request for %T", rt)
}
}
type certificateCacheEntry struct {
cert *tls.Certificate
err error
birth time.Time
}
// isStale returns true when this cache entry is too old to be usable
func (c *certificateCacheEntry) isStale() bool {
return time.Since(c.birth) > time.Second
}
func newCertificateCacheEntry(certFile, keyFile string) certificateCacheEntry {
cert, err := tls.LoadX509KeyPair(certFile, keyFile)
return certificateCacheEntry{cert: &cert, err: err, birth: time.Now()}
}
// cachingCertificateLoader ensures that we don't hammer the filesystem when opening many connections
// the underlying cert files are read at most once every second
func cachingCertificateLoader(certFile, keyFile string) func() (*tls.Certificate, error) {
current := newCertificateCacheEntry(certFile, keyFile)
var currentMtx sync.RWMutex
return func() (*tls.Certificate, error) {
currentMtx.RLock()
if current.isStale() {
currentMtx.RUnlock()
currentMtx.Lock()
defer currentMtx.Unlock()
if current.isStale() {
current = newCertificateCacheEntry(certFile, keyFile)
}
} else {
defer currentMtx.RUnlock()
}
return current.cert, current.err
}
}