mirror of
https://gogs.blitter.com/RLabs/xs
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250 lines
6.5 KiB
Go
250 lines
6.5 KiB
Go
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// kex.go - Kyber key exchange.
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//
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// To the extent possible under law, Yawning Angel has waived all copyright
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// and related or neighboring rights to the software, using the Creative
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// Commons "CC0" public domain dedication. See LICENSE or
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// <http://creativecommons.org/publicdomain/zero/1.0/> for full details.
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package kyber
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import (
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"errors"
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"io"
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"golang.org/x/crypto/sha3"
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)
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var (
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// ErrInvalidMessageSize is the error thrown via a panic when a initator
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// or responder message is an invalid size.
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ErrInvalidMessageSize = errors.New("kyber: invalid message size")
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// ErrParameterSetMismatch is the error thrown via a panic when there
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// is a mismatch between parameter sets.
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ErrParameterSetMismatch = errors.New("kyber: parameter set mismatch")
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)
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// UAKEInitiatorMessageSize returns the size of the initiator UAKE message
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// in bytes.
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func (p *ParameterSet) UAKEInitiatorMessageSize() int {
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return p.PublicKeySize() + p.CipherTextSize()
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}
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// UAKEResponderMessageSize returns the size of the responder UAKE message
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// in bytes.
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func (p *ParameterSet) UAKEResponderMessageSize() int {
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return p.CipherTextSize()
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}
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// UAKEInitiatorState is a initiator UAKE instance. Each instance MUST only
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// be used for one key exchange and never reused.
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type UAKEInitiatorState struct {
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// Message is the UAKE message to send to the responder.
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Message []byte
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eSk *PrivateKey
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tk []byte
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}
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// Shared generates a shared secret for the given UAKE instance and responder
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// message.
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//
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// On failures, sharedSecret will contain a randomized value. Providing a
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// cipher text that is obviously malformed (too large/small) will result in a
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// panic.
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func (s *UAKEInitiatorState) Shared(recv []byte) (sharedSecret []byte) {
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xof := sha3.NewShake256()
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var tk []byte
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tk = s.eSk.KEMDecrypt(recv)
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xof.Write(tk)
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xof.Write(s.tk)
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sharedSecret = make([]byte, SymSize)
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xof.Read(sharedSecret)
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return
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}
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// NewUAKEInitiatorState creates a new initiator UAKE instance.
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func (pk *PublicKey) NewUAKEInitiatorState(rng io.Reader) (*UAKEInitiatorState, error) {
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s := new(UAKEInitiatorState)
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s.Message = make([]byte, 0, pk.p.UAKEInitiatorMessageSize())
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var err error
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_, s.eSk, err = pk.p.GenerateKeyPair(rng)
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if err != nil {
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return nil, err
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}
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s.Message = append(s.Message, s.eSk.PublicKey.Bytes()...)
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var ct []byte
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ct, s.tk, err = pk.KEMEncrypt(rng)
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if err != nil {
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return nil, err
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}
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s.Message = append(s.Message, ct...)
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return s, nil
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}
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// UAKEResponderShared generates a responder message and shared secret given
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// a initiator UAKE message.
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//
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// On failures, sharedSecret will contain a randomized value. Providing a
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// cipher text that is obviously malformed (too large/small) will result in a
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// panic.
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func (sk *PrivateKey) UAKEResponderShared(rng io.Reader, recv []byte) (message, sharedSecret []byte) {
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p := sk.PublicKey.p
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pkLen := p.PublicKeySize()
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// Deserialize the peer's ephemeral public key.
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if len(recv) != p.UAKEInitiatorMessageSize() {
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panic(ErrInvalidMessageSize)
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}
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rawPk, ct := recv[:pkLen], recv[pkLen:]
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pk, err := p.PublicKeyFromBytes(rawPk)
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if err != nil {
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panic(err)
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}
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xof := sha3.NewShake256()
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var tk []byte
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message, tk, err = pk.KEMEncrypt(rng)
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if err != nil {
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panic(err)
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}
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xof.Write(tk)
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tk = sk.KEMDecrypt(ct)
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xof.Write(tk)
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sharedSecret = make([]byte, SymSize)
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xof.Read(sharedSecret)
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return
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}
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// AKEInitiatorMessageSize returns the size of the initiator AKE message
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// in bytes.
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func (p *ParameterSet) AKEInitiatorMessageSize() int {
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return p.PublicKeySize() + p.CipherTextSize()
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}
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// AKEResponderMessageSize returns the size of the responder AKE message
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// in bytes.
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func (p *ParameterSet) AKEResponderMessageSize() int {
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return 2 * p.CipherTextSize()
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}
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// AKEInitiatorState is a initiator AKE instance. Each instance MUST only be
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// used for one key exchange and never reused.
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type AKEInitiatorState struct {
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// Message is the AKE message to send to the responder.
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Message []byte
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eSk *PrivateKey
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tk []byte
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}
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// Shared generates a shared secret for the given AKE instance, responder
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// message, and long term initiator private key.
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//
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// On failures sharedSecret will contain a randomized value. Providing a
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// malformed responder message, or a private key that uses a different
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// ParamterSet than the AKEInitiatorState will result in a panic.
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func (s *AKEInitiatorState) Shared(recv []byte, initiatorPrivateKey *PrivateKey) (sharedSecret []byte) {
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p := s.eSk.PublicKey.p
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if initiatorPrivateKey.PublicKey.p != p {
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panic(ErrParameterSetMismatch)
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}
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if len(recv) != p.AKEResponderMessageSize() {
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panic(ErrInvalidMessageSize)
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}
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ctLen := p.CipherTextSize()
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xof := sha3.NewShake256()
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var tk []byte
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tk = s.eSk.KEMDecrypt(recv[:ctLen])
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xof.Write(tk)
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tk = initiatorPrivateKey.KEMDecrypt(recv[ctLen:])
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xof.Write(tk)
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xof.Write(s.tk)
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sharedSecret = make([]byte, SymSize)
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xof.Read(sharedSecret)
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return
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}
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// NewAKEInitiatorState creates a new initiator AKE instance.
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func (pk *PublicKey) NewAKEInitiatorState(rng io.Reader) (*AKEInitiatorState, error) {
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s := new(AKEInitiatorState)
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// This is identical to the UAKE case, so just reuse the code.
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us, err := pk.NewUAKEInitiatorState(rng)
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if err != nil {
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return nil, err
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}
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s.Message = us.Message
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s.eSk = us.eSk
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s.tk = us.tk
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return s, nil
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}
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// AKEResponderShared generates a responder message and shared secret given
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// a initiator AKE message and long term initiator public key.
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//
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// On failures sharedSecret will contain a randomized value. Providing a
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// malformed responder message, or a private key that uses a different
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// ParamterSet than the AKEInitiatorState will result in a panic.
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func (sk *PrivateKey) AKEResponderShared(rng io.Reader, recv []byte, peerPublicKey *PublicKey) (message, sharedSecret []byte) {
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p := sk.PublicKey.p
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pkLen := p.PublicKeySize()
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if peerPublicKey.p != p {
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panic(ErrParameterSetMismatch)
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}
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// Deserialize the peer's ephemeral public key.
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if len(recv) != p.AKEInitiatorMessageSize() {
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panic(ErrInvalidMessageSize)
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}
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rawPk, ct := recv[:pkLen], recv[pkLen:]
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pk, err := p.PublicKeyFromBytes(rawPk)
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if err != nil {
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panic(err)
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}
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message = make([]byte, 0, p.AKEResponderMessageSize())
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xof := sha3.NewShake256()
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var tk, tmp []byte
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tmp, tk, err = pk.KEMEncrypt(rng)
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if err != nil {
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panic(err)
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}
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xof.Write(tk)
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message = append(message, tmp...)
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tmp, tk, err = peerPublicKey.KEMEncrypt(rng)
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if err != nil {
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panic(err)
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}
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xof.Write(tk)
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message = append(message, tmp...)
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tk = sk.KEMDecrypt(ct)
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xof.Write(tk)
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sharedSecret = make([]byte, SymSize)
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xof.Read(sharedSecret)
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return
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}
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