mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-12-04 20:20:19 +00:00
91774fc936
Uses github.com/libopenstorage/secrets to communicate with Vault. This removes the need for maintaining our own limited Vault APIs. By adding the new dependency, several other packages got updated in the process. Unused indirect dependencies have been removed from go.mod. Signed-off-by: Niels de Vos <ndevos@redhat.com>
547 lines
15 KiB
Go
547 lines
15 KiB
Go
// Copyright 2012 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package ssh
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import (
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"bytes"
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"errors"
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"fmt"
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"io"
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"net"
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"sort"
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"time"
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)
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// These constants from [PROTOCOL.certkeys] represent the algorithm names
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// for certificate types supported by this package.
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const (
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CertAlgoRSAv01 = "ssh-rsa-cert-v01@openssh.com"
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CertAlgoDSAv01 = "ssh-dss-cert-v01@openssh.com"
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CertAlgoECDSA256v01 = "ecdsa-sha2-nistp256-cert-v01@openssh.com"
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CertAlgoECDSA384v01 = "ecdsa-sha2-nistp384-cert-v01@openssh.com"
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CertAlgoECDSA521v01 = "ecdsa-sha2-nistp521-cert-v01@openssh.com"
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CertAlgoSKECDSA256v01 = "sk-ecdsa-sha2-nistp256-cert-v01@openssh.com"
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CertAlgoED25519v01 = "ssh-ed25519-cert-v01@openssh.com"
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CertAlgoSKED25519v01 = "sk-ssh-ed25519-cert-v01@openssh.com"
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)
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// Certificate types distinguish between host and user
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// certificates. The values can be set in the CertType field of
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// Certificate.
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const (
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UserCert = 1
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HostCert = 2
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)
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// Signature represents a cryptographic signature.
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type Signature struct {
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Format string
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Blob []byte
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Rest []byte `ssh:"rest"`
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}
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// CertTimeInfinity can be used for OpenSSHCertV01.ValidBefore to indicate that
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// a certificate does not expire.
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const CertTimeInfinity = 1<<64 - 1
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// An Certificate represents an OpenSSH certificate as defined in
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// [PROTOCOL.certkeys]?rev=1.8. The Certificate type implements the
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// PublicKey interface, so it can be unmarshaled using
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// ParsePublicKey.
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type Certificate struct {
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Nonce []byte
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Key PublicKey
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Serial uint64
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CertType uint32
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KeyId string
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ValidPrincipals []string
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ValidAfter uint64
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ValidBefore uint64
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Permissions
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Reserved []byte
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SignatureKey PublicKey
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Signature *Signature
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}
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// genericCertData holds the key-independent part of the certificate data.
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// Overall, certificates contain an nonce, public key fields and
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// key-independent fields.
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type genericCertData struct {
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Serial uint64
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CertType uint32
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KeyId string
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ValidPrincipals []byte
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ValidAfter uint64
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ValidBefore uint64
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CriticalOptions []byte
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Extensions []byte
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Reserved []byte
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SignatureKey []byte
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Signature []byte
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}
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func marshalStringList(namelist []string) []byte {
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var to []byte
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for _, name := range namelist {
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s := struct{ N string }{name}
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to = append(to, Marshal(&s)...)
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}
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return to
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}
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type optionsTuple struct {
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Key string
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Value []byte
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}
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type optionsTupleValue struct {
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Value string
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}
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// serialize a map of critical options or extensions
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// issue #10569 - per [PROTOCOL.certkeys] and SSH implementation,
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// we need two length prefixes for a non-empty string value
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func marshalTuples(tups map[string]string) []byte {
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keys := make([]string, 0, len(tups))
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for key := range tups {
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keys = append(keys, key)
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}
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sort.Strings(keys)
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var ret []byte
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for _, key := range keys {
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s := optionsTuple{Key: key}
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if value := tups[key]; len(value) > 0 {
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s.Value = Marshal(&optionsTupleValue{value})
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}
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ret = append(ret, Marshal(&s)...)
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}
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return ret
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}
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// issue #10569 - per [PROTOCOL.certkeys] and SSH implementation,
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// we need two length prefixes for a non-empty option value
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func parseTuples(in []byte) (map[string]string, error) {
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tups := map[string]string{}
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var lastKey string
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var haveLastKey bool
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for len(in) > 0 {
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var key, val, extra []byte
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var ok bool
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if key, in, ok = parseString(in); !ok {
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return nil, errShortRead
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}
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keyStr := string(key)
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// according to [PROTOCOL.certkeys], the names must be in
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// lexical order.
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if haveLastKey && keyStr <= lastKey {
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return nil, fmt.Errorf("ssh: certificate options are not in lexical order")
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}
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lastKey, haveLastKey = keyStr, true
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// the next field is a data field, which if non-empty has a string embedded
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if val, in, ok = parseString(in); !ok {
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return nil, errShortRead
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}
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if len(val) > 0 {
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val, extra, ok = parseString(val)
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if !ok {
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return nil, errShortRead
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}
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if len(extra) > 0 {
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return nil, fmt.Errorf("ssh: unexpected trailing data after certificate option value")
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}
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tups[keyStr] = string(val)
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} else {
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tups[keyStr] = ""
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}
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}
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return tups, nil
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}
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func parseCert(in []byte, privAlgo string) (*Certificate, error) {
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nonce, rest, ok := parseString(in)
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if !ok {
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return nil, errShortRead
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}
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key, rest, err := parsePubKey(rest, privAlgo)
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if err != nil {
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return nil, err
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}
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var g genericCertData
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if err := Unmarshal(rest, &g); err != nil {
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return nil, err
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}
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c := &Certificate{
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Nonce: nonce,
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Key: key,
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Serial: g.Serial,
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CertType: g.CertType,
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KeyId: g.KeyId,
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ValidAfter: g.ValidAfter,
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ValidBefore: g.ValidBefore,
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}
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for principals := g.ValidPrincipals; len(principals) > 0; {
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principal, rest, ok := parseString(principals)
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if !ok {
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return nil, errShortRead
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}
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c.ValidPrincipals = append(c.ValidPrincipals, string(principal))
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principals = rest
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}
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c.CriticalOptions, err = parseTuples(g.CriticalOptions)
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if err != nil {
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return nil, err
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}
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c.Extensions, err = parseTuples(g.Extensions)
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if err != nil {
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return nil, err
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}
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c.Reserved = g.Reserved
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k, err := ParsePublicKey(g.SignatureKey)
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if err != nil {
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return nil, err
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}
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c.SignatureKey = k
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c.Signature, rest, ok = parseSignatureBody(g.Signature)
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if !ok || len(rest) > 0 {
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return nil, errors.New("ssh: signature parse error")
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}
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return c, nil
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}
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type openSSHCertSigner struct {
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pub *Certificate
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signer Signer
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}
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type algorithmOpenSSHCertSigner struct {
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*openSSHCertSigner
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algorithmSigner AlgorithmSigner
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}
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// NewCertSigner returns a Signer that signs with the given Certificate, whose
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// private key is held by signer. It returns an error if the public key in cert
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// doesn't match the key used by signer.
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func NewCertSigner(cert *Certificate, signer Signer) (Signer, error) {
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if bytes.Compare(cert.Key.Marshal(), signer.PublicKey().Marshal()) != 0 {
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return nil, errors.New("ssh: signer and cert have different public key")
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}
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if algorithmSigner, ok := signer.(AlgorithmSigner); ok {
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return &algorithmOpenSSHCertSigner{
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&openSSHCertSigner{cert, signer}, algorithmSigner}, nil
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} else {
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return &openSSHCertSigner{cert, signer}, nil
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}
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}
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func (s *openSSHCertSigner) Sign(rand io.Reader, data []byte) (*Signature, error) {
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return s.signer.Sign(rand, data)
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}
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func (s *openSSHCertSigner) PublicKey() PublicKey {
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return s.pub
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}
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func (s *algorithmOpenSSHCertSigner) SignWithAlgorithm(rand io.Reader, data []byte, algorithm string) (*Signature, error) {
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return s.algorithmSigner.SignWithAlgorithm(rand, data, algorithm)
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}
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const sourceAddressCriticalOption = "source-address"
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// CertChecker does the work of verifying a certificate. Its methods
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// can be plugged into ClientConfig.HostKeyCallback and
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// ServerConfig.PublicKeyCallback. For the CertChecker to work,
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// minimally, the IsAuthority callback should be set.
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type CertChecker struct {
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// SupportedCriticalOptions lists the CriticalOptions that the
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// server application layer understands. These are only used
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// for user certificates.
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SupportedCriticalOptions []string
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// IsUserAuthority should return true if the key is recognized as an
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// authority for the given user certificate. This allows for
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// certificates to be signed by other certificates. This must be set
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// if this CertChecker will be checking user certificates.
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IsUserAuthority func(auth PublicKey) bool
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// IsHostAuthority should report whether the key is recognized as
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// an authority for this host. This allows for certificates to be
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// signed by other keys, and for those other keys to only be valid
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// signers for particular hostnames. This must be set if this
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// CertChecker will be checking host certificates.
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IsHostAuthority func(auth PublicKey, address string) bool
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// Clock is used for verifying time stamps. If nil, time.Now
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// is used.
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Clock func() time.Time
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// UserKeyFallback is called when CertChecker.Authenticate encounters a
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// public key that is not a certificate. It must implement validation
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// of user keys or else, if nil, all such keys are rejected.
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UserKeyFallback func(conn ConnMetadata, key PublicKey) (*Permissions, error)
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// HostKeyFallback is called when CertChecker.CheckHostKey encounters a
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// public key that is not a certificate. It must implement host key
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// validation or else, if nil, all such keys are rejected.
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HostKeyFallback HostKeyCallback
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// IsRevoked is called for each certificate so that revocation checking
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// can be implemented. It should return true if the given certificate
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// is revoked and false otherwise. If nil, no certificates are
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// considered to have been revoked.
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IsRevoked func(cert *Certificate) bool
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}
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// CheckHostKey checks a host key certificate. This method can be
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// plugged into ClientConfig.HostKeyCallback.
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func (c *CertChecker) CheckHostKey(addr string, remote net.Addr, key PublicKey) error {
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cert, ok := key.(*Certificate)
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if !ok {
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if c.HostKeyFallback != nil {
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return c.HostKeyFallback(addr, remote, key)
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}
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return errors.New("ssh: non-certificate host key")
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}
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if cert.CertType != HostCert {
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return fmt.Errorf("ssh: certificate presented as a host key has type %d", cert.CertType)
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}
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if !c.IsHostAuthority(cert.SignatureKey, addr) {
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return fmt.Errorf("ssh: no authorities for hostname: %v", addr)
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}
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hostname, _, err := net.SplitHostPort(addr)
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if err != nil {
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return err
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}
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// Pass hostname only as principal for host certificates (consistent with OpenSSH)
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return c.CheckCert(hostname, cert)
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}
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// Authenticate checks a user certificate. Authenticate can be used as
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// a value for ServerConfig.PublicKeyCallback.
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func (c *CertChecker) Authenticate(conn ConnMetadata, pubKey PublicKey) (*Permissions, error) {
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cert, ok := pubKey.(*Certificate)
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if !ok {
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if c.UserKeyFallback != nil {
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return c.UserKeyFallback(conn, pubKey)
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}
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return nil, errors.New("ssh: normal key pairs not accepted")
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}
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if cert.CertType != UserCert {
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return nil, fmt.Errorf("ssh: cert has type %d", cert.CertType)
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}
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if !c.IsUserAuthority(cert.SignatureKey) {
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return nil, fmt.Errorf("ssh: certificate signed by unrecognized authority")
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}
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if err := c.CheckCert(conn.User(), cert); err != nil {
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return nil, err
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}
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return &cert.Permissions, nil
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}
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// CheckCert checks CriticalOptions, ValidPrincipals, revocation, timestamp and
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// the signature of the certificate.
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func (c *CertChecker) CheckCert(principal string, cert *Certificate) error {
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if c.IsRevoked != nil && c.IsRevoked(cert) {
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return fmt.Errorf("ssh: certificate serial %d revoked", cert.Serial)
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}
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for opt := range cert.CriticalOptions {
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// sourceAddressCriticalOption will be enforced by
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// serverAuthenticate
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if opt == sourceAddressCriticalOption {
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continue
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}
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found := false
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for _, supp := range c.SupportedCriticalOptions {
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if supp == opt {
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found = true
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break
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}
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}
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if !found {
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return fmt.Errorf("ssh: unsupported critical option %q in certificate", opt)
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}
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}
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if len(cert.ValidPrincipals) > 0 {
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// By default, certs are valid for all users/hosts.
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found := false
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for _, p := range cert.ValidPrincipals {
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if p == principal {
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found = true
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break
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}
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}
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if !found {
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return fmt.Errorf("ssh: principal %q not in the set of valid principals for given certificate: %q", principal, cert.ValidPrincipals)
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}
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}
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clock := c.Clock
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if clock == nil {
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clock = time.Now
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}
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unixNow := clock().Unix()
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if after := int64(cert.ValidAfter); after < 0 || unixNow < int64(cert.ValidAfter) {
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return fmt.Errorf("ssh: cert is not yet valid")
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}
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if before := int64(cert.ValidBefore); cert.ValidBefore != uint64(CertTimeInfinity) && (unixNow >= before || before < 0) {
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return fmt.Errorf("ssh: cert has expired")
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}
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if err := cert.SignatureKey.Verify(cert.bytesForSigning(), cert.Signature); err != nil {
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return fmt.Errorf("ssh: certificate signature does not verify")
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}
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return nil
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}
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// SignCert signs the certificate with an authority, setting the Nonce,
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// SignatureKey, and Signature fields.
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func (c *Certificate) SignCert(rand io.Reader, authority Signer) error {
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c.Nonce = make([]byte, 32)
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if _, err := io.ReadFull(rand, c.Nonce); err != nil {
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return err
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}
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c.SignatureKey = authority.PublicKey()
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sig, err := authority.Sign(rand, c.bytesForSigning())
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if err != nil {
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return err
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}
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c.Signature = sig
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return nil
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}
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var certAlgoNames = map[string]string{
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KeyAlgoRSA: CertAlgoRSAv01,
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KeyAlgoDSA: CertAlgoDSAv01,
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KeyAlgoECDSA256: CertAlgoECDSA256v01,
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KeyAlgoECDSA384: CertAlgoECDSA384v01,
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KeyAlgoECDSA521: CertAlgoECDSA521v01,
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KeyAlgoSKECDSA256: CertAlgoSKECDSA256v01,
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KeyAlgoED25519: CertAlgoED25519v01,
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KeyAlgoSKED25519: CertAlgoSKED25519v01,
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}
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// certToPrivAlgo returns the underlying algorithm for a certificate algorithm.
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// Panics if a non-certificate algorithm is passed.
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func certToPrivAlgo(algo string) string {
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for privAlgo, pubAlgo := range certAlgoNames {
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if pubAlgo == algo {
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return privAlgo
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}
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}
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panic("unknown cert algorithm")
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}
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func (cert *Certificate) bytesForSigning() []byte {
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c2 := *cert
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c2.Signature = nil
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out := c2.Marshal()
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// Drop trailing signature length.
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return out[:len(out)-4]
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}
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// Marshal serializes c into OpenSSH's wire format. It is part of the
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// PublicKey interface.
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func (c *Certificate) Marshal() []byte {
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generic := genericCertData{
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Serial: c.Serial,
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CertType: c.CertType,
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KeyId: c.KeyId,
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ValidPrincipals: marshalStringList(c.ValidPrincipals),
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ValidAfter: uint64(c.ValidAfter),
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ValidBefore: uint64(c.ValidBefore),
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CriticalOptions: marshalTuples(c.CriticalOptions),
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Extensions: marshalTuples(c.Extensions),
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Reserved: c.Reserved,
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SignatureKey: c.SignatureKey.Marshal(),
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}
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if c.Signature != nil {
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generic.Signature = Marshal(c.Signature)
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}
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genericBytes := Marshal(&generic)
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keyBytes := c.Key.Marshal()
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_, keyBytes, _ = parseString(keyBytes)
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prefix := Marshal(&struct {
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Name string
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Nonce []byte
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Key []byte `ssh:"rest"`
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}{c.Type(), c.Nonce, keyBytes})
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result := make([]byte, 0, len(prefix)+len(genericBytes))
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result = append(result, prefix...)
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result = append(result, genericBytes...)
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return result
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}
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// Type returns the key name. It is part of the PublicKey interface.
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func (c *Certificate) Type() string {
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algo, ok := certAlgoNames[c.Key.Type()]
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if !ok {
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panic("unknown cert key type " + c.Key.Type())
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}
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return algo
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}
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// Verify verifies a signature against the certificate's public
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// key. It is part of the PublicKey interface.
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func (c *Certificate) Verify(data []byte, sig *Signature) error {
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return c.Key.Verify(data, sig)
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}
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func parseSignatureBody(in []byte) (out *Signature, rest []byte, ok bool) {
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format, in, ok := parseString(in)
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if !ok {
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return
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}
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out = &Signature{
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Format: string(format),
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}
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if out.Blob, in, ok = parseString(in); !ok {
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return
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}
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switch out.Format {
|
|
case KeyAlgoSKECDSA256, CertAlgoSKECDSA256v01, KeyAlgoSKED25519, CertAlgoSKED25519v01:
|
|
out.Rest = in
|
|
return out, nil, ok
|
|
}
|
|
|
|
return out, in, ok
|
|
}
|
|
|
|
func parseSignature(in []byte) (out *Signature, rest []byte, ok bool) {
|
|
sigBytes, rest, ok := parseString(in)
|
|
if !ok {
|
|
return
|
|
}
|
|
|
|
out, trailing, ok := parseSignatureBody(sigBytes)
|
|
if !ok || len(trailing) > 0 {
|
|
return nil, nil, false
|
|
}
|
|
return
|
|
}
|