mirror of
https://github.com/cwinfo/matterbridge.git
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367 lines
13 KiB
Go
367 lines
13 KiB
Go
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package session
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import (
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"fmt"
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"go.mau.fi/libsignal/cipher"
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"go.mau.fi/libsignal/ecc"
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"go.mau.fi/libsignal/keys/chain"
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"go.mau.fi/libsignal/keys/message"
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"go.mau.fi/libsignal/logger"
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"go.mau.fi/libsignal/protocol"
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"go.mau.fi/libsignal/signalerror"
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"go.mau.fi/libsignal/state/record"
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"go.mau.fi/libsignal/state/store"
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"go.mau.fi/libsignal/util/bytehelper"
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)
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const maxFutureMessages = 2000
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// NewCipher constructs a session cipher for encrypt/decrypt operations on a
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// session. In order to use the session cipher, a session must have already
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// been created and stored using session.Builder.
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func NewCipher(builder *Builder, remoteAddress *protocol.SignalAddress) *Cipher {
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cipher := &Cipher{
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sessionStore: builder.sessionStore,
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preKeyMessageSerializer: builder.serializer.PreKeySignalMessage,
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signalMessageSerializer: builder.serializer.SignalMessage,
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preKeyStore: builder.preKeyStore,
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remoteAddress: remoteAddress,
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builder: builder,
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identityKeyStore: builder.identityKeyStore,
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}
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return cipher
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}
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func NewCipherFromSession(remoteAddress *protocol.SignalAddress,
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sessionStore store.Session, preKeyStore store.PreKey, identityKeyStore store.IdentityKey,
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preKeyMessageSerializer protocol.PreKeySignalMessageSerializer,
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signalMessageSerializer protocol.SignalMessageSerializer) *Cipher {
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cipher := &Cipher{
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sessionStore: sessionStore,
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preKeyMessageSerializer: preKeyMessageSerializer,
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signalMessageSerializer: signalMessageSerializer,
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preKeyStore: preKeyStore,
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remoteAddress: remoteAddress,
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identityKeyStore: identityKeyStore,
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}
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return cipher
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}
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// Cipher is the main entry point for Signal Protocol encrypt/decrypt operations.
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// Once a session has been established with session.Builder, this can be used for
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// all encrypt/decrypt operations within that session.
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type Cipher struct {
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sessionStore store.Session
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preKeyMessageSerializer protocol.PreKeySignalMessageSerializer
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signalMessageSerializer protocol.SignalMessageSerializer
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preKeyStore store.PreKey
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remoteAddress *protocol.SignalAddress
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builder *Builder
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identityKeyStore store.IdentityKey
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}
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// Encrypt will take the given message in bytes and return an object that follows
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// the CiphertextMessage interface.
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func (d *Cipher) Encrypt(plaintext []byte) (protocol.CiphertextMessage, error) {
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sessionRecord := d.sessionStore.LoadSession(d.remoteAddress)
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sessionState := sessionRecord.SessionState()
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chainKey := sessionState.SenderChainKey()
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messageKeys := chainKey.MessageKeys()
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senderEphemeral := sessionState.SenderRatchetKey()
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previousCounter := sessionState.PreviousCounter()
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sessionVersion := sessionState.Version()
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ciphertextBody, err := encrypt(messageKeys, plaintext)
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logger.Debug("Got ciphertextBody: ", ciphertextBody)
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if err != nil {
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return nil, err
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}
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var ciphertextMessage protocol.CiphertextMessage
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ciphertextMessage, err = protocol.NewSignalMessage(
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sessionVersion,
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chainKey.Index(),
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previousCounter,
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messageKeys.MacKey(),
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senderEphemeral,
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ciphertextBody,
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sessionState.LocalIdentityKey(),
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sessionState.RemoteIdentityKey(),
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d.signalMessageSerializer,
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)
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if err != nil {
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return nil, err
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}
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// If we haven't established a session with the recipient yet,
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// send our message as a PreKeySignalMessage.
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if sessionState.HasUnacknowledgedPreKeyMessage() {
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items, err := sessionState.UnackPreKeyMessageItems()
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if err != nil {
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return nil, err
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}
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localRegistrationID := sessionState.LocalRegistrationID()
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ciphertextMessage, err = protocol.NewPreKeySignalMessage(
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sessionVersion,
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localRegistrationID,
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items.PreKeyID(),
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items.SignedPreKeyID(),
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items.BaseKey(),
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sessionState.LocalIdentityKey(),
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ciphertextMessage.(*protocol.SignalMessage),
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d.preKeyMessageSerializer,
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d.signalMessageSerializer,
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)
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if err != nil {
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return nil, err
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}
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}
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sessionState.SetSenderChainKey(chainKey.NextKey())
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if !d.identityKeyStore.IsTrustedIdentity(d.remoteAddress, sessionState.RemoteIdentityKey()) {
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// return err
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}
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d.identityKeyStore.SaveIdentity(d.remoteAddress, sessionState.RemoteIdentityKey())
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d.sessionStore.StoreSession(d.remoteAddress, sessionRecord)
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return ciphertextMessage, nil
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}
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// Decrypt decrypts the given message using an existing session that
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// is stored in the session store.
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func (d *Cipher) Decrypt(ciphertextMessage *protocol.SignalMessage) ([]byte, error) {
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plaintext, _, err := d.DecryptAndGetKey(ciphertextMessage)
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return plaintext, err
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}
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// DecryptAndGetKey decrypts the given message using an existing session that
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// is stored in the session store and returns the message keys used for encryption.
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func (d *Cipher) DecryptAndGetKey(ciphertextMessage *protocol.SignalMessage) ([]byte, *message.Keys, error) {
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if !d.sessionStore.ContainsSession(d.remoteAddress) {
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return nil, nil, fmt.Errorf("%w %s", signalerror.ErrNoSessionForUser, d.remoteAddress.String())
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}
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// Load the session record from our session store and decrypt the message.
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sessionRecord := d.sessionStore.LoadSession(d.remoteAddress)
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plaintext, messageKeys, err := d.DecryptWithRecord(sessionRecord, ciphertextMessage)
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if err != nil {
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return nil, nil, err
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}
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if !d.identityKeyStore.IsTrustedIdentity(d.remoteAddress, sessionRecord.SessionState().RemoteIdentityKey()) {
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// return err
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}
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d.identityKeyStore.SaveIdentity(d.remoteAddress, sessionRecord.SessionState().RemoteIdentityKey())
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// Store the session record in our session store.
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d.sessionStore.StoreSession(d.remoteAddress, sessionRecord)
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return plaintext, messageKeys, nil
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}
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func (d *Cipher) DecryptMessage(ciphertextMessage *protocol.PreKeySignalMessage) ([]byte, error) {
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plaintext, _, err := d.DecryptMessageReturnKey(ciphertextMessage)
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return plaintext, err
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}
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func (d *Cipher) DecryptMessageReturnKey(ciphertextMessage *protocol.PreKeySignalMessage) ([]byte, *message.Keys, error) {
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// Load or create session record for this session.
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sessionRecord := d.sessionStore.LoadSession(d.remoteAddress)
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unsignedPreKeyID, err := d.builder.Process(sessionRecord, ciphertextMessage)
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if err != nil {
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return nil, nil, err
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}
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plaintext, keys, err := d.DecryptWithRecord(sessionRecord, ciphertextMessage.WhisperMessage())
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if err != nil {
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return nil, nil, err
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}
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// Store the session record in our session store.
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d.sessionStore.StoreSession(d.remoteAddress, sessionRecord)
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if !unsignedPreKeyID.IsEmpty {
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d.preKeyStore.RemovePreKey(unsignedPreKeyID.Value)
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}
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return plaintext, keys, nil
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}
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// DecryptWithKey will decrypt the given message using the given symmetric key. This
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// can be used when decrypting messages at a later time if the message key was saved.
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func (d *Cipher) DecryptWithKey(ciphertextMessage *protocol.SignalMessage, key *message.Keys) ([]byte, error) {
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logger.Debug("Decrypting ciphertext body: ", ciphertextMessage.Body())
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plaintext, err := decrypt(key, ciphertextMessage.Body())
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if err != nil {
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logger.Error("Unable to get plain text from ciphertext: ", err)
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return nil, err
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}
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return plaintext, nil
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}
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// DecryptWithRecord decrypts the given message using the given session record.
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func (d *Cipher) DecryptWithRecord(sessionRecord *record.Session, ciphertext *protocol.SignalMessage) ([]byte, *message.Keys, error) {
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logger.Debug("Decrypting ciphertext with record: ", sessionRecord)
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previousStates := sessionRecord.PreviousSessionStates()
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sessionState := sessionRecord.SessionState()
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// Try and decrypt the message with the current session state.
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plaintext, messageKeys, err := d.DecryptWithState(sessionState, ciphertext)
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// If we received an error using the current session state, loop
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// through all previous states.
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if err != nil {
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logger.Warning(err)
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for i, state := range previousStates {
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// Try decrypting the message with previous states
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plaintext, messageKeys, err = d.DecryptWithState(state, ciphertext)
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if err != nil {
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continue
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}
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// If successful, remove and promote the state.
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previousStates = append(previousStates[:i], previousStates[i+1:]...)
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sessionRecord.PromoteState(state)
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return plaintext, messageKeys, nil
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}
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return nil, nil, signalerror.ErrNoValidSessions
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}
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// If decryption was successful, set the session state and return the plain text.
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sessionRecord.SetState(sessionState)
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return plaintext, messageKeys, nil
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}
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// DecryptWithState decrypts the given message with the given session state.
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func (d *Cipher) DecryptWithState(sessionState *record.State, ciphertextMessage *protocol.SignalMessage) ([]byte, *message.Keys, error) {
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logger.Debug("Decrypting ciphertext with session state: ", sessionState)
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if !sessionState.HasSenderChain() {
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logger.Error("Unable to decrypt message with state: ", signalerror.ErrUninitializedSession)
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return nil, nil, signalerror.ErrUninitializedSession
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}
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if ciphertextMessage.MessageVersion() != sessionState.Version() {
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logger.Error("Unable to decrypt message with state: ", signalerror.ErrWrongMessageVersion)
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return nil, nil, signalerror.ErrWrongMessageVersion
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}
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messageVersion := ciphertextMessage.MessageVersion()
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theirEphemeral := ciphertextMessage.SenderRatchetKey()
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counter := ciphertextMessage.Counter()
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chainKey, chainCreateErr := getOrCreateChainKey(sessionState, theirEphemeral)
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if chainCreateErr != nil {
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logger.Error("Unable to get or create chain key: ", chainCreateErr)
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return nil, nil, fmt.Errorf("failed to get or create chain key: %w", chainCreateErr)
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}
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messageKeys, keysCreateErr := getOrCreateMessageKeys(sessionState, theirEphemeral, chainKey, counter)
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if keysCreateErr != nil {
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logger.Error("Unable to get or create message keys: ", keysCreateErr)
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return nil, nil, fmt.Errorf("failed to get or create message keys: %w", keysCreateErr)
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}
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err := ciphertextMessage.VerifyMac(messageVersion, sessionState.RemoteIdentityKey(), sessionState.LocalIdentityKey(), messageKeys.MacKey())
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if err != nil {
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logger.Error("Unable to verify ciphertext mac: ", err)
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return nil, nil, fmt.Errorf("failed to verify ciphertext MAC: %w", err)
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}
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plaintext, err := d.DecryptWithKey(ciphertextMessage, messageKeys)
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if err != nil {
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return nil, nil, err
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}
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sessionState.ClearUnackPreKeyMessage()
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return plaintext, messageKeys, nil
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}
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func getOrCreateMessageKeys(sessionState *record.State, theirEphemeral ecc.ECPublicKeyable,
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chainKey *chain.Key, counter uint32) (*message.Keys, error) {
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if chainKey.Index() > counter {
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if sessionState.HasMessageKeys(theirEphemeral, counter) {
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return sessionState.RemoveMessageKeys(theirEphemeral, counter), nil
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}
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return nil, fmt.Errorf("%w (index: %d, count: %d)", signalerror.ErrOldCounter, chainKey.Index(), counter)
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}
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if counter-chainKey.Index() > maxFutureMessages {
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return nil, signalerror.ErrTooFarIntoFuture
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}
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for chainKey.Index() < counter {
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messageKeys := chainKey.MessageKeys()
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sessionState.SetMessageKeys(theirEphemeral, messageKeys)
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chainKey = chainKey.NextKey()
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}
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sessionState.SetReceiverChainKey(theirEphemeral, chainKey.NextKey())
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return chainKey.MessageKeys(), nil
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}
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// getOrCreateChainKey will either return the existing chain key or
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// create a new one with the given session state and ephemeral key.
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func getOrCreateChainKey(sessionState *record.State, theirEphemeral ecc.ECPublicKeyable) (*chain.Key, error) {
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// If our session state already has a receiver chain, use their
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// ephemeral key in the existing chain.
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if sessionState.HasReceiverChain(theirEphemeral) {
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return sessionState.ReceiverChainKey(theirEphemeral), nil
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}
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// If we don't have a chain key, create one with ephemeral keys.
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rootKey := sessionState.RootKey()
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ourEphemeral := sessionState.SenderRatchetKeyPair()
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receiverChain, rErr := rootKey.CreateChain(theirEphemeral, ourEphemeral)
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if rErr != nil {
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return nil, rErr
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}
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// Generate a new ephemeral key pair.
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ourNewEphemeral, gErr := ecc.GenerateKeyPair()
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if gErr != nil {
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return nil, gErr
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}
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// Create a new chain using our new ephemeral key.
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senderChain, cErr := receiverChain.RootKey.CreateChain(theirEphemeral, ourNewEphemeral)
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if cErr != nil {
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return nil, cErr
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}
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// Set our session state parameters.
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sessionState.SetRootKey(senderChain.RootKey)
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sessionState.AddReceiverChain(theirEphemeral, receiverChain.ChainKey)
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previousCounter := max(sessionState.SenderChainKey().Index()-1, 0)
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sessionState.SetPreviousCounter(previousCounter)
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sessionState.SetSenderChain(ourNewEphemeral, senderChain.ChainKey)
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return receiverChain.ChainKey.(*chain.Key), nil
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}
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// decrypt will use the given message keys and ciphertext and return
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// the plaintext bytes.
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func decrypt(keys *message.Keys, body []byte) ([]byte, error) {
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logger.Debug("Using cipherKey: ", keys.CipherKey())
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return cipher.DecryptCbc(keys.Iv(), keys.CipherKey(), bytehelper.CopySlice(body))
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}
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// encrypt will use the given cipher, message keys, and plaintext bytes
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// and return ciphertext bytes.
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func encrypt(messageKeys *message.Keys, plaintext []byte) ([]byte, error) {
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logger.Debug("Using cipherKey: ", messageKeys.CipherKey())
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return cipher.EncryptCbc(messageKeys.Iv(), messageKeys.CipherKey(), plaintext)
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}
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// Max is a uint32 implementation of math.Max
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func max(x, y uint32) uint32 {
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if x > y {
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return x
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}
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return y
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}
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