mirror of
https://github.com/letic/terraform-provider-google.git
synced 2024-09-06 17:16:44 +00:00
961c878e0d
Switch to using Go modules. This migrates our vendor.json to use Go 1.11's modules system, and replaces the vendor folder with the output of go mod vendor. The vendored code should remain basically the same; I believe some tree shaking of packages and support scripts/licenses/READMEs/etc. happened. This also fixes Travis and our Makefile to no longer use govendor.
283 lines
8.1 KiB
Go
283 lines
8.1 KiB
Go
// Copyright 2013 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 packet
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import (
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"crypto"
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"crypto/md5"
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"encoding/binary"
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"fmt"
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"hash"
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"io"
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"math/big"
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"strconv"
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"time"
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"github.com/keybase/go-crypto/openpgp/errors"
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"github.com/keybase/go-crypto/rsa"
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)
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// PublicKeyV3 represents older, version 3 public keys. These keys are less secure and
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// should not be used for signing or encrypting. They are supported here only for
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// parsing version 3 key material and validating signatures.
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// See RFC 4880, section 5.5.2.
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type PublicKeyV3 struct {
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CreationTime time.Time
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DaysToExpire uint16
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PubKeyAlgo PublicKeyAlgorithm
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PublicKey *rsa.PublicKey
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Fingerprint [16]byte
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KeyId uint64
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IsSubkey bool
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n, e parsedMPI
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}
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// newRSAPublicKeyV3 returns a PublicKey that wraps the given rsa.PublicKey.
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// Included here for testing purposes only. RFC 4880, section 5.5.2:
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// "an implementation MUST NOT generate a V3 key, but MAY accept it."
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func newRSAPublicKeyV3(creationTime time.Time, pub *rsa.PublicKey) *PublicKeyV3 {
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pk := &PublicKeyV3{
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CreationTime: creationTime,
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PublicKey: pub,
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n: FromBig(pub.N),
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e: FromBig(big.NewInt(int64(pub.E))),
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}
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pk.setFingerPrintAndKeyId()
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return pk
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}
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func (pk *PublicKeyV3) parse(r io.Reader) (err error) {
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// RFC 4880, section 5.5.2
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var buf [8]byte
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if _, err = readFull(r, buf[:]); err != nil {
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return
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}
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if buf[0] < 2 || buf[0] > 3 {
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return errors.UnsupportedError("public key version")
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}
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pk.CreationTime = time.Unix(int64(uint32(buf[1])<<24|uint32(buf[2])<<16|uint32(buf[3])<<8|uint32(buf[4])), 0)
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pk.DaysToExpire = binary.BigEndian.Uint16(buf[5:7])
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pk.PubKeyAlgo = PublicKeyAlgorithm(buf[7])
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switch pk.PubKeyAlgo {
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case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly:
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err = pk.parseRSA(r)
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default:
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err = errors.UnsupportedError("public key type: " + strconv.Itoa(int(pk.PubKeyAlgo)))
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}
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if err != nil {
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return
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}
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pk.setFingerPrintAndKeyId()
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return
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}
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func (pk *PublicKeyV3) setFingerPrintAndKeyId() {
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// RFC 4880, section 12.2
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fingerPrint := md5.New()
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fingerPrint.Write(pk.n.bytes)
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fingerPrint.Write(pk.e.bytes)
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fingerPrint.Sum(pk.Fingerprint[:0])
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pk.KeyId = binary.BigEndian.Uint64(pk.n.bytes[len(pk.n.bytes)-8:])
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}
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// parseRSA parses RSA public key material from the given Reader. See RFC 4880,
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// section 5.5.2.
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func (pk *PublicKeyV3) parseRSA(r io.Reader) (err error) {
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if pk.n.bytes, pk.n.bitLength, err = readMPI(r); err != nil {
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return
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}
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if pk.e.bytes, pk.e.bitLength, err = readMPI(r); err != nil {
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return
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}
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// RFC 4880 Section 12.2 requires the low 8 bytes of the
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// modulus to form the key id.
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if len(pk.n.bytes) < 8 {
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return errors.StructuralError("v3 public key modulus is too short")
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}
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if len(pk.e.bytes) > 7 {
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err = errors.UnsupportedError("large public exponent")
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return
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}
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rsa := &rsa.PublicKey{N: new(big.Int).SetBytes(pk.n.bytes)}
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// Warning: incompatibility with crypto/rsa: keybase fork uses
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// int64 public exponents instead of int32.
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for i := 0; i < len(pk.e.bytes); i++ {
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rsa.E <<= 8
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rsa.E |= int64(pk.e.bytes[i])
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}
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pk.PublicKey = rsa
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return
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}
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// SerializeSignaturePrefix writes the prefix for this public key to the given Writer.
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// The prefix is used when calculating a signature over this public key. See
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// RFC 4880, section 5.2.4.
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func (pk *PublicKeyV3) SerializeSignaturePrefix(w io.Writer) {
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var pLength uint16
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switch pk.PubKeyAlgo {
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case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly:
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pLength += 2 + uint16(len(pk.n.bytes))
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pLength += 2 + uint16(len(pk.e.bytes))
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default:
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panic("unknown public key algorithm")
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}
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pLength += 6
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w.Write([]byte{0x99, byte(pLength >> 8), byte(pLength)})
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return
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}
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func (pk *PublicKeyV3) Serialize(w io.Writer) (err error) {
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length := 8 // 8 byte header
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switch pk.PubKeyAlgo {
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case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly:
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length += 2 + len(pk.n.bytes)
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length += 2 + len(pk.e.bytes)
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default:
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panic("unknown public key algorithm")
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}
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packetType := packetTypePublicKey
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if pk.IsSubkey {
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packetType = packetTypePublicSubkey
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}
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if err = serializeHeader(w, packetType, length); err != nil {
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return
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}
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return pk.serializeWithoutHeaders(w)
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}
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// serializeWithoutHeaders marshals the PublicKey to w in the form of an
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// OpenPGP public key packet, not including the packet header.
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func (pk *PublicKeyV3) serializeWithoutHeaders(w io.Writer) (err error) {
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var buf [8]byte
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// Version 3
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buf[0] = 3
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// Creation time
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t := uint32(pk.CreationTime.Unix())
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buf[1] = byte(t >> 24)
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buf[2] = byte(t >> 16)
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buf[3] = byte(t >> 8)
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buf[4] = byte(t)
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// Days to expire
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buf[5] = byte(pk.DaysToExpire >> 8)
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buf[6] = byte(pk.DaysToExpire)
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// Public key algorithm
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buf[7] = byte(pk.PubKeyAlgo)
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if _, err = w.Write(buf[:]); err != nil {
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return
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}
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switch pk.PubKeyAlgo {
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case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly:
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return writeMPIs(w, pk.n, pk.e)
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}
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return errors.InvalidArgumentError("bad public-key algorithm")
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}
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// CanSign returns true iff this public key can generate signatures
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func (pk *PublicKeyV3) CanSign() bool {
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return pk.PubKeyAlgo != PubKeyAlgoRSAEncryptOnly
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}
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// VerifySignatureV3 returns nil iff sig is a valid signature, made by this
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// public key, of the data hashed into signed. signed is mutated by this call.
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func (pk *PublicKeyV3) VerifySignatureV3(signed hash.Hash, sig *SignatureV3) (err error) {
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if !pk.CanSign() {
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return errors.InvalidArgumentError("public key cannot generate signatures")
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}
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suffix := make([]byte, 5)
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suffix[0] = byte(sig.SigType)
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binary.BigEndian.PutUint32(suffix[1:], uint32(sig.CreationTime.Unix()))
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signed.Write(suffix)
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hashBytes := signed.Sum(nil)
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if hashBytes[0] != sig.HashTag[0] || hashBytes[1] != sig.HashTag[1] {
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return errors.SignatureError("hash tag doesn't match")
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}
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if pk.PubKeyAlgo != sig.PubKeyAlgo {
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return errors.InvalidArgumentError("public key and signature use different algorithms")
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}
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switch pk.PubKeyAlgo {
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case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly:
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if err = rsa.VerifyPKCS1v15(pk.PublicKey, sig.Hash, hashBytes, sig.RSASignature.bytes); err != nil {
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return errors.SignatureError("RSA verification failure")
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}
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return
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default:
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// V3 public keys only support RSA.
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panic("shouldn't happen")
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}
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panic("unreachable")
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}
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// VerifyUserIdSignatureV3 returns nil iff sig is a valid signature, made by this
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// public key, that id is the identity of pub.
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func (pk *PublicKeyV3) VerifyUserIdSignatureV3(id string, pub *PublicKeyV3, sig *SignatureV3) (err error) {
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h, err := userIdSignatureV3Hash(id, pk, sig.Hash)
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if err != nil {
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return err
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}
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return pk.VerifySignatureV3(h, sig)
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}
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// VerifyKeySignatureV3 returns nil iff sig is a valid signature, made by this
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// public key, of signed.
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func (pk *PublicKeyV3) VerifyKeySignatureV3(signed *PublicKeyV3, sig *SignatureV3) (err error) {
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h, err := keySignatureHash(pk, signed, sig.Hash)
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if err != nil {
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return err
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}
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return pk.VerifySignatureV3(h, sig)
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}
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// userIdSignatureV3Hash returns a Hash of the message that needs to be signed
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// to assert that pk is a valid key for id.
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func userIdSignatureV3Hash(id string, pk signingKey, hfn crypto.Hash) (h hash.Hash, err error) {
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if !hfn.Available() {
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return nil, errors.UnsupportedError("hash function")
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}
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h = hfn.New()
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// RFC 4880, section 5.2.4
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pk.SerializeSignaturePrefix(h)
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pk.serializeWithoutHeaders(h)
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h.Write([]byte(id))
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return
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}
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// KeyIdString returns the public key's fingerprint in capital hex
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// (e.g. "6C7EE1B8621CC013").
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func (pk *PublicKeyV3) KeyIdString() string {
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return fmt.Sprintf("%X", pk.KeyId)
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}
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// KeyIdShortString returns the short form of public key's fingerprint
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// in capital hex, as shown by gpg --list-keys (e.g. "621CC013").
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func (pk *PublicKeyV3) KeyIdShortString() string {
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return fmt.Sprintf("%X", pk.KeyId&0xFFFFFFFF)
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}
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// BitLength returns the bit length for the given public key.
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func (pk *PublicKeyV3) BitLength() (bitLength uint16, err error) {
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switch pk.PubKeyAlgo {
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case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly:
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bitLength = pk.n.bitLength
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default:
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err = errors.InvalidArgumentError("bad public-key algorithm")
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}
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return
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}
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