mirror of
https://github.com/cwinfo/matterbridge.git
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198 lines
7.1 KiB
Go
198 lines
7.1 KiB
Go
// Package ratchet provides the methods necessary to establish a new double
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// ratchet session.
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package ratchet
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import (
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"encoding/base64"
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"encoding/binary"
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"go.mau.fi/libsignal/ecc"
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"go.mau.fi/libsignal/kdf"
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"go.mau.fi/libsignal/keys/chain"
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"go.mau.fi/libsignal/keys/root"
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"go.mau.fi/libsignal/keys/session"
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)
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var b64 = base64.StdEncoding.EncodeToString
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func genDiscontinuity() [32]byte {
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var discontinuity [32]byte
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for i := range discontinuity {
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discontinuity[i] = 0xFF
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}
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return discontinuity
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}
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// CalculateSenderSession calculates the key agreement for a recipient. This
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// should be used when we are trying to send a message to someone for the
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// first time.
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func CalculateSenderSession(parameters *SenderParameters) (*session.KeyPair, error) {
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var secret [32]byte
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var publicKey [32]byte
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var privateKey [32]byte
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masterSecret := []byte{} // Create a master shared secret that is 5 different 32-byte values
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discontinuity := genDiscontinuity()
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masterSecret = append(masterSecret, discontinuity[:]...)
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// Calculate the agreement using their signed prekey and our identity key.
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publicKey = parameters.TheirSignedPreKey().PublicKey()
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privateKey = parameters.OurIdentityKey().PrivateKey().Serialize()
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secret = kdf.CalculateSharedSecret(
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publicKey,
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privateKey,
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)
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masterSecret = append(masterSecret, secret[:]...)
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// Calculate the agreement using their identity key and our base key.
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publicKey = parameters.TheirIdentityKey().PublicKey().PublicKey()
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privateKey = parameters.OurBaseKey().PrivateKey().Serialize()
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secret = kdf.CalculateSharedSecret(
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publicKey,
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privateKey,
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)
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masterSecret = append(masterSecret, secret[:]...)
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// Calculate the agreement using their signed prekey and our base key.
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publicKey = parameters.TheirSignedPreKey().PublicKey()
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privateKey = parameters.OurBaseKey().PrivateKey().Serialize()
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secret = kdf.CalculateSharedSecret(
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publicKey,
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privateKey,
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)
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masterSecret = append(masterSecret, secret[:]...)
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// If they have a one-time prekey, use it to calculate the shared secret with their
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// one time key and our base key.
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if parameters.TheirOneTimePreKey() != nil {
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publicKey = parameters.TheirOneTimePreKey().PublicKey()
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privateKey = parameters.OurBaseKey().PrivateKey().Serialize()
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secret = kdf.CalculateSharedSecret(
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publicKey,
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privateKey,
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)
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masterSecret = append(masterSecret, secret[:]...)
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}
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// Derive the root and chain keys based on the master secret.
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derivedKeysBytes, err := kdf.DeriveSecrets(masterSecret, nil, []byte("WhisperText"), root.DerivedSecretsSize)
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if err != nil {
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return nil, err
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}
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derivedKeys := session.NewDerivedSecrets(derivedKeysBytes)
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chainKey := chain.NewKey(kdf.DeriveSecrets, derivedKeys.ChainKey(), 0)
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rootKey := root.NewKey(kdf.DeriveSecrets, derivedKeys.RootKey())
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// Add the root and chain keys to a structure that will hold both keys.
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sessionKeys := session.NewKeyPair(rootKey, chainKey)
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return sessionKeys, nil
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}
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// CalculateReceiverSession calculates the key agreement for a sender. This should
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// be used when we are receiving a message from someone for the first time.
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func CalculateReceiverSession(parameters *ReceiverParameters) (*session.KeyPair, error) {
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var secret [32]byte
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var publicKey [32]byte
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var privateKey [32]byte
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masterSecret := []byte{} // Create a master shared secret that is 5 different 32-byte values
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discontinuity := genDiscontinuity()
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masterSecret = append(masterSecret, discontinuity[:]...)
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// Calculate the agreement using their identity key and our signed pre key.
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publicKey = parameters.TheirIdentityKey().PublicKey().PublicKey()
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privateKey = parameters.OurSignedPreKey().PrivateKey().Serialize()
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secret = kdf.CalculateSharedSecret(
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publicKey,
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privateKey,
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)
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masterSecret = append(masterSecret, secret[:]...)
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// Calculate the agreement using their base key and our identity key.
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publicKey = parameters.TheirBaseKey().PublicKey()
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privateKey = parameters.OurIdentityKeyPair().PrivateKey().Serialize()
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secret = kdf.CalculateSharedSecret(
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publicKey,
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privateKey,
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)
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masterSecret = append(masterSecret, secret[:]...)
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// Calculate the agreement using their base key and our signed prekey.
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publicKey = parameters.TheirBaseKey().PublicKey()
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privateKey = parameters.OurSignedPreKey().PrivateKey().Serialize()
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secret = kdf.CalculateSharedSecret(
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publicKey,
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privateKey,
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)
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masterSecret = append(masterSecret, secret[:]...)
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// If we had a one-time prekey, use it to calculate the shared secret with our
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// one time key and their base key.
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if parameters.OurOneTimePreKey() != nil {
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publicKey = parameters.TheirBaseKey().PublicKey()
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privateKey = parameters.OurOneTimePreKey().PrivateKey().Serialize()
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secret = kdf.CalculateSharedSecret(
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publicKey,
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privateKey,
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)
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masterSecret = append(masterSecret, secret[:]...)
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}
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// Derive the root and chain keys based on the master secret.
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derivedKeysBytes, err := kdf.DeriveSecrets(masterSecret, nil, []byte("WhisperText"), root.DerivedSecretsSize)
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if err != nil {
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return nil, err
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}
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derivedKeys := session.NewDerivedSecrets(derivedKeysBytes)
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chainKey := chain.NewKey(kdf.DeriveSecrets, derivedKeys.ChainKey(), 0)
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rootKey := root.NewKey(kdf.DeriveSecrets, derivedKeys.RootKey())
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// Add the root and chain keys to a structure that will hold both keys.
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sessionKeys := session.NewKeyPair(rootKey, chainKey)
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return sessionKeys, nil
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}
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// CalculateSymmetricSession calculates the key agreement between two users. This
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// works by both clients exchanging KeyExchange messages to first establish a session.
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// This is useful for establishing a session if both users are online.
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func CalculateSymmetricSession(parameters *SymmetricParameters) (*session.KeyPair, error) {
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// Compare the base public keys so we can deterministically know whether we should
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// be setting up a sender or receiver session. If our key converted to an integer is
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// less than the other user's, act as a sender.
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if isSender(parameters.OurBaseKey.PublicKey(), parameters.TheirBaseKey) {
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senderParameters := &SenderParameters{
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ourBaseKey: parameters.OurBaseKey,
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ourIdentityKeyPair: parameters.OurIdentityKeyPair,
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theirRatchetKey: parameters.TheirRatchetKey,
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theirIdentityKey: parameters.TheirIdentityKey,
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theirSignedPreKey: parameters.TheirBaseKey,
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}
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return CalculateSenderSession(senderParameters)
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}
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// If our base public key was larger than the other user's, act as a receiver.
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receiverParameters := &ReceiverParameters{
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ourIdentityKeyPair: parameters.OurIdentityKeyPair,
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ourRatchetKey: parameters.OurRatchetKey,
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ourSignedPreKey: parameters.OurBaseKey,
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theirBaseKey: parameters.TheirBaseKey,
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theirIdentityKey: parameters.TheirIdentityKey,
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}
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return CalculateReceiverSession(receiverParameters)
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}
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// isSender is a private method for determining if a symmetric session should
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// be calculated as the sender or receiver. It does so by converting the given
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// keys into integers and comparing the size of those integers.
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func isSender(ourKey, theirKey ecc.ECPublicKeyable) bool {
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ourKeyInt := binary.BigEndian.Uint32(ourKey.Serialize())
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theirKeyInt := binary.BigEndian.Uint32(theirKey.Serialize())
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return ourKeyInt < theirKeyInt
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}
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