mirror of https://github.com/docker/cli.git
530 lines
13 KiB
Go
530 lines
13 KiB
Go
package data
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import (
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"crypto"
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"crypto/ecdsa"
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"crypto/rsa"
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"crypto/sha256"
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"crypto/x509"
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"encoding/asn1"
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"encoding/hex"
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"errors"
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"io"
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"math/big"
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"github.com/docker/go/canonical/json"
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"github.com/sirupsen/logrus"
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"golang.org/x/crypto/ed25519"
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)
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// PublicKey is the necessary interface for public keys
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type PublicKey interface {
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ID() string
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Algorithm() string
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Public() []byte
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}
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// PrivateKey adds the ability to access the private key
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type PrivateKey interface {
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PublicKey
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Sign(rand io.Reader, msg []byte, opts crypto.SignerOpts) (signature []byte, err error)
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Private() []byte
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CryptoSigner() crypto.Signer
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SignatureAlgorithm() SigAlgorithm
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}
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// KeyPair holds the public and private key bytes
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type KeyPair struct {
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Public []byte `json:"public"`
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Private []byte `json:"private"`
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}
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// Keys represents a map of key ID to PublicKey object. It's necessary
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// to allow us to unmarshal into an interface via the json.Unmarshaller
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// interface
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type Keys map[string]PublicKey
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// UnmarshalJSON implements the json.Unmarshaller interface
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func (ks *Keys) UnmarshalJSON(data []byte) error {
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parsed := make(map[string]TUFKey)
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err := json.Unmarshal(data, &parsed)
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if err != nil {
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return err
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}
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final := make(map[string]PublicKey)
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for k, tk := range parsed {
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final[k] = typedPublicKey(tk)
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}
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*ks = final
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return nil
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}
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// KeyList represents a list of keys
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type KeyList []PublicKey
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// UnmarshalJSON implements the json.Unmarshaller interface
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func (ks *KeyList) UnmarshalJSON(data []byte) error {
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parsed := make([]TUFKey, 0, 1)
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err := json.Unmarshal(data, &parsed)
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if err != nil {
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return err
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}
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final := make([]PublicKey, 0, len(parsed))
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for _, tk := range parsed {
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final = append(final, typedPublicKey(tk))
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}
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*ks = final
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return nil
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}
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// IDs generates a list of the hex encoded key IDs in the KeyList
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func (ks KeyList) IDs() []string {
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keyIDs := make([]string, 0, len(ks))
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for _, k := range ks {
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keyIDs = append(keyIDs, k.ID())
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}
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return keyIDs
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}
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func typedPublicKey(tk TUFKey) PublicKey {
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switch tk.Algorithm() {
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case ECDSAKey:
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return &ECDSAPublicKey{TUFKey: tk}
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case ECDSAx509Key:
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return &ECDSAx509PublicKey{TUFKey: tk}
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case RSAKey:
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return &RSAPublicKey{TUFKey: tk}
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case RSAx509Key:
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return &RSAx509PublicKey{TUFKey: tk}
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case ED25519Key:
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return &ED25519PublicKey{TUFKey: tk}
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}
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return &UnknownPublicKey{TUFKey: tk}
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}
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func typedPrivateKey(tk TUFKey) (PrivateKey, error) {
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private := tk.Value.Private
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tk.Value.Private = nil
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switch tk.Algorithm() {
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case ECDSAKey:
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return NewECDSAPrivateKey(
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&ECDSAPublicKey{
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TUFKey: tk,
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},
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private,
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)
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case ECDSAx509Key:
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return NewECDSAPrivateKey(
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&ECDSAx509PublicKey{
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TUFKey: tk,
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},
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private,
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)
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case RSAKey:
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return NewRSAPrivateKey(
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&RSAPublicKey{
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TUFKey: tk,
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},
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private,
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)
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case RSAx509Key:
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return NewRSAPrivateKey(
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&RSAx509PublicKey{
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TUFKey: tk,
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},
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private,
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)
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case ED25519Key:
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return NewED25519PrivateKey(
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ED25519PublicKey{
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TUFKey: tk,
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},
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private,
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)
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}
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return &UnknownPrivateKey{
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TUFKey: tk,
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privateKey: privateKey{private: private},
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}, nil
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}
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// NewPublicKey creates a new, correctly typed PublicKey, using the
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// UnknownPublicKey catchall for unsupported ciphers
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func NewPublicKey(alg string, public []byte) PublicKey {
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tk := TUFKey{
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Type: alg,
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Value: KeyPair{
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Public: public,
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},
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}
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return typedPublicKey(tk)
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}
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// NewPrivateKey creates a new, correctly typed PrivateKey, using the
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// UnknownPrivateKey catchall for unsupported ciphers
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func NewPrivateKey(pubKey PublicKey, private []byte) (PrivateKey, error) {
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tk := TUFKey{
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Type: pubKey.Algorithm(),
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Value: KeyPair{
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Public: pubKey.Public(),
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Private: private, // typedPrivateKey moves this value
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},
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}
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return typedPrivateKey(tk)
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}
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// UnmarshalPublicKey is used to parse individual public keys in JSON
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func UnmarshalPublicKey(data []byte) (PublicKey, error) {
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var parsed TUFKey
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err := json.Unmarshal(data, &parsed)
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if err != nil {
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return nil, err
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}
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return typedPublicKey(parsed), nil
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}
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// UnmarshalPrivateKey is used to parse individual private keys in JSON
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func UnmarshalPrivateKey(data []byte) (PrivateKey, error) {
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var parsed TUFKey
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err := json.Unmarshal(data, &parsed)
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if err != nil {
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return nil, err
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}
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return typedPrivateKey(parsed)
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}
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// TUFKey is the structure used for both public and private keys in TUF.
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// Normally it would make sense to use a different structures for public and
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// private keys, but that would change the key ID algorithm (since the canonical
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// JSON would be different). This structure should normally be accessed through
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// the PublicKey or PrivateKey interfaces.
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type TUFKey struct {
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id string
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Type string `json:"keytype"`
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Value KeyPair `json:"keyval"`
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}
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// Algorithm returns the algorithm of the key
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func (k TUFKey) Algorithm() string {
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return k.Type
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}
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// ID efficiently generates if necessary, and caches the ID of the key
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func (k *TUFKey) ID() string {
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if k.id == "" {
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pubK := TUFKey{
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Type: k.Algorithm(),
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Value: KeyPair{
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Public: k.Public(),
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Private: nil,
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},
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}
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data, err := json.MarshalCanonical(&pubK)
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if err != nil {
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logrus.Error("Error generating key ID:", err)
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}
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digest := sha256.Sum256(data)
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k.id = hex.EncodeToString(digest[:])
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}
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return k.id
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}
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// Public returns the public bytes
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func (k TUFKey) Public() []byte {
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return k.Value.Public
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}
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// Public key types
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// ECDSAPublicKey represents an ECDSA key using a raw serialization
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// of the public key
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type ECDSAPublicKey struct {
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TUFKey
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}
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// ECDSAx509PublicKey represents an ECDSA key using an x509 cert
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// as the serialized format of the public key
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type ECDSAx509PublicKey struct {
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TUFKey
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}
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// RSAPublicKey represents an RSA key using a raw serialization
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// of the public key
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type RSAPublicKey struct {
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TUFKey
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}
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// RSAx509PublicKey represents an RSA key using an x509 cert
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// as the serialized format of the public key
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type RSAx509PublicKey struct {
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TUFKey
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}
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// ED25519PublicKey represents an ED25519 key using a raw serialization
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// of the public key
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type ED25519PublicKey struct {
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TUFKey
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}
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// UnknownPublicKey is a catchall for key types that are not supported
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type UnknownPublicKey struct {
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TUFKey
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}
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// NewECDSAPublicKey initializes a new public key with the ECDSAKey type
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func NewECDSAPublicKey(public []byte) *ECDSAPublicKey {
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return &ECDSAPublicKey{
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TUFKey: TUFKey{
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Type: ECDSAKey,
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Value: KeyPair{
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Public: public,
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Private: nil,
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},
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},
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}
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}
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// NewECDSAx509PublicKey initializes a new public key with the ECDSAx509Key type
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func NewECDSAx509PublicKey(public []byte) *ECDSAx509PublicKey {
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return &ECDSAx509PublicKey{
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TUFKey: TUFKey{
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Type: ECDSAx509Key,
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Value: KeyPair{
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Public: public,
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Private: nil,
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},
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},
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}
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}
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// NewRSAPublicKey initializes a new public key with the RSA type
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func NewRSAPublicKey(public []byte) *RSAPublicKey {
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return &RSAPublicKey{
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TUFKey: TUFKey{
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Type: RSAKey,
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Value: KeyPair{
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Public: public,
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Private: nil,
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},
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},
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}
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}
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// NewRSAx509PublicKey initializes a new public key with the RSAx509Key type
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func NewRSAx509PublicKey(public []byte) *RSAx509PublicKey {
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return &RSAx509PublicKey{
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TUFKey: TUFKey{
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Type: RSAx509Key,
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Value: KeyPair{
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Public: public,
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Private: nil,
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},
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},
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}
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}
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// NewED25519PublicKey initializes a new public key with the ED25519Key type
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func NewED25519PublicKey(public []byte) *ED25519PublicKey {
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return &ED25519PublicKey{
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TUFKey: TUFKey{
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Type: ED25519Key,
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Value: KeyPair{
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Public: public,
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Private: nil,
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},
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},
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}
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}
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// Private key types
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type privateKey struct {
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private []byte
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}
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type signer struct {
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signer crypto.Signer
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}
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// ECDSAPrivateKey represents a private ECDSA key
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type ECDSAPrivateKey struct {
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PublicKey
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privateKey
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signer
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}
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// RSAPrivateKey represents a private RSA key
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type RSAPrivateKey struct {
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PublicKey
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privateKey
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signer
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}
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// ED25519PrivateKey represents a private ED25519 key
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type ED25519PrivateKey struct {
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ED25519PublicKey
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privateKey
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}
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// UnknownPrivateKey is a catchall for unsupported key types
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type UnknownPrivateKey struct {
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TUFKey
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privateKey
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}
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// NewECDSAPrivateKey initializes a new ECDSA private key
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func NewECDSAPrivateKey(public PublicKey, private []byte) (*ECDSAPrivateKey, error) {
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switch public.(type) {
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case *ECDSAPublicKey, *ECDSAx509PublicKey:
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default:
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return nil, errors.New("invalid public key type provided to NewECDSAPrivateKey")
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}
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ecdsaPrivKey, err := x509.ParseECPrivateKey(private)
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if err != nil {
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return nil, err
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}
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return &ECDSAPrivateKey{
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PublicKey: public,
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privateKey: privateKey{private: private},
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signer: signer{signer: ecdsaPrivKey},
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}, nil
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}
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// NewRSAPrivateKey initialized a new RSA private key
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func NewRSAPrivateKey(public PublicKey, private []byte) (*RSAPrivateKey, error) {
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switch public.(type) {
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case *RSAPublicKey, *RSAx509PublicKey:
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default:
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return nil, errors.New("invalid public key type provided to NewRSAPrivateKey")
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}
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rsaPrivKey, err := x509.ParsePKCS1PrivateKey(private)
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if err != nil {
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return nil, err
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}
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return &RSAPrivateKey{
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PublicKey: public,
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privateKey: privateKey{private: private},
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signer: signer{signer: rsaPrivKey},
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}, nil
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}
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// NewED25519PrivateKey initialized a new ED25519 private key
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func NewED25519PrivateKey(public ED25519PublicKey, private []byte) (*ED25519PrivateKey, error) {
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return &ED25519PrivateKey{
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ED25519PublicKey: public,
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privateKey: privateKey{private: private},
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}, nil
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}
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// Private return the serialized private bytes of the key
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func (k privateKey) Private() []byte {
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return k.private
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}
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// CryptoSigner returns the underlying crypto.Signer for use cases where we need the default
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// signature or public key functionality (like when we generate certificates)
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func (s signer) CryptoSigner() crypto.Signer {
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return s.signer
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}
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// CryptoSigner returns the ED25519PrivateKey which already implements crypto.Signer
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func (k ED25519PrivateKey) CryptoSigner() crypto.Signer {
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return nil
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}
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// CryptoSigner returns the UnknownPrivateKey which already implements crypto.Signer
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func (k UnknownPrivateKey) CryptoSigner() crypto.Signer {
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return nil
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}
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type ecdsaSig struct {
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R *big.Int
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S *big.Int
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}
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// Sign creates an ecdsa signature
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func (k ECDSAPrivateKey) Sign(rand io.Reader, msg []byte, opts crypto.SignerOpts) (signature []byte, err error) {
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ecdsaPrivKey, ok := k.CryptoSigner().(*ecdsa.PrivateKey)
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if !ok {
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return nil, errors.New("signer was based on the wrong key type")
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}
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hashed := sha256.Sum256(msg)
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sigASN1, err := ecdsaPrivKey.Sign(rand, hashed[:], opts)
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if err != nil {
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return nil, err
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}
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sig := ecdsaSig{}
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_, err = asn1.Unmarshal(sigASN1, &sig)
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if err != nil {
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return nil, err
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}
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rBytes, sBytes := sig.R.Bytes(), sig.S.Bytes()
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octetLength := (ecdsaPrivKey.Params().BitSize + 7) >> 3
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// MUST include leading zeros in the output
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rBuf := make([]byte, octetLength-len(rBytes), octetLength)
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sBuf := make([]byte, octetLength-len(sBytes), octetLength)
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rBuf = append(rBuf, rBytes...)
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sBuf = append(sBuf, sBytes...)
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return append(rBuf, sBuf...), nil
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}
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// Sign creates an rsa signature
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func (k RSAPrivateKey) Sign(rand io.Reader, msg []byte, opts crypto.SignerOpts) (signature []byte, err error) {
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hashed := sha256.Sum256(msg)
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if opts == nil {
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opts = &rsa.PSSOptions{
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SaltLength: rsa.PSSSaltLengthEqualsHash,
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Hash: crypto.SHA256,
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}
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}
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return k.CryptoSigner().Sign(rand, hashed[:], opts)
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}
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// Sign creates an ed25519 signature
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func (k ED25519PrivateKey) Sign(rand io.Reader, msg []byte, opts crypto.SignerOpts) (signature []byte, err error) {
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priv := make([]byte, ed25519.PrivateKeySize)
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// The ed25519 key is serialized as public key then private key, so just use private key here.
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copy(priv, k.private[ed25519.PublicKeySize:])
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return ed25519.Sign(ed25519.PrivateKey(priv), msg)[:], nil
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}
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// Sign on an UnknownPrivateKey raises an error because the client does not
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// know how to sign with this key type.
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func (k UnknownPrivateKey) Sign(rand io.Reader, msg []byte, opts crypto.SignerOpts) (signature []byte, err error) {
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return nil, errors.New("unknown key type, cannot sign")
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}
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// SignatureAlgorithm returns the SigAlgorithm for a ECDSAPrivateKey
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func (k ECDSAPrivateKey) SignatureAlgorithm() SigAlgorithm {
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return ECDSASignature
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}
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// SignatureAlgorithm returns the SigAlgorithm for a RSAPrivateKey
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func (k RSAPrivateKey) SignatureAlgorithm() SigAlgorithm {
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return RSAPSSSignature
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}
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// SignatureAlgorithm returns the SigAlgorithm for a ED25519PrivateKey
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func (k ED25519PrivateKey) SignatureAlgorithm() SigAlgorithm {
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return EDDSASignature
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}
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// SignatureAlgorithm returns the SigAlgorithm for an UnknownPrivateKey
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func (k UnknownPrivateKey) SignatureAlgorithm() SigAlgorithm {
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return ""
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}
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// PublicKeyFromPrivate returns a new TUFKey based on a private key, with
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// the private key bytes guaranteed to be nil.
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func PublicKeyFromPrivate(pk PrivateKey) PublicKey {
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return typedPublicKey(TUFKey{
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Type: pk.Algorithm(),
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Value: KeyPair{
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Public: pk.Public(),
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Private: nil,
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},
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})
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}
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