reticulum/RNS/Identity.py

# MIT License
#
# Copyright (c) 2016-2022 Mark Qvist / unsigned.io
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all
# copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.

import math
import os
import RNS
import time
import atexit
import hashlib

from .vendor import umsgpack as umsgpack

from RNS.Cryptography import X25519PrivateKey, X25519PublicKey, Ed25519PrivateKey, Ed25519PublicKey
from RNS.Cryptography import Fernet


class Identity:
    """
    This class is used to manage identities in Reticulum. It provides methods
    for encryption, decryption, signatures and verification, and is the basis
    for all encrypted communication over Reticulum networks.

    :param create_keys: Specifies whether new encryption and signing keys should be generated.
    """

    CURVE = "Curve25519"
    """
    The curve used for Elliptic Curve DH key exchanges
    """

    KEYSIZE     = 256*2
    """
    X25519 key size in bits. A complete key is the concatenation of a 256 bit encryption key, and a 256 bit signing key.
    """   

    # Non-configurable constants
    FERNET_OVERHEAD           = RNS.Cryptography.Fernet.FERNET_OVERHEAD
    AES128_BLOCKSIZE          = 16          # In bytes
    HASHLENGTH                = 256         # In bits
    SIGLENGTH                 = KEYSIZE     # In bits

    NAME_HASH_LENGTH     = 80
    TRUNCATED_HASHLENGTH = RNS.Reticulum.TRUNCATED_HASHLENGTH
    """
    Constant specifying the truncated hash length (in bits) used by Reticulum
    for addressable hashes and other purposes. Non-configurable.
    """

    # Storage
    known_destinations = {}

    @staticmethod
    def remember(packet_hash, destination_hash, public_key, app_data = None):
        if len(public_key) != Identity.KEYSIZE//8:
            raise TypeError("Can't remember "+RNS.prettyhexrep(destination_hash)+", the public key size of "+str(len(public_key))+" is not valid.", RNS.LOG_ERROR)
        else:
            Identity.known_destinations[destination_hash] = [time.time(), packet_hash, public_key, app_data]


    @staticmethod
    def recall(destination_hash):
        """
        Recall identity for a destination hash.

        :param destination_hash: Destination hash as *bytes*.
        :returns: An :ref:`RNS.Identity<api-identity>` instance that can be used to create an outgoing :ref:`RNS.Destination<api-destination>`, or *None* if the destination is unknown.
        """
        if destination_hash in Identity.known_destinations:
            identity_data = Identity.known_destinations[destination_hash]
            identity = Identity(create_keys=False)
            identity.load_public_key(identity_data[2])
            identity.app_data = identity_data[3]
            return identity
        else:
            return None

    @staticmethod
    def recall_app_data(destination_hash):
        """
        Recall last heard app_data for a destination hash.

        :param destination_hash: Destination hash as *bytes*.
        :returns: *Bytes* containing app_data, or *None* if the destination is unknown.
        """
        if destination_hash in Identity.known_destinations:
            app_data = Identity.known_destinations[destination_hash][3]
            return app_data
        else:
            return None

    @staticmethod
    def save_known_destinations():
        # TODO: Improve the storage method so we don't have to
        # deserialize and serialize the entire table on every
        # save, but the only changes. It might be possible to
        # simply overwrite on exit now that every local client
        # disconnect triggers a data persist.
        
        try:
            if hasattr(Identity, "saving_known_destinations"):
                wait_interval = 0.2
                wait_timeout = 5
                wait_start = time.time()
                while Identity.saving_known_destinations:
                    time.sleep(wait_interval)
                    if time.time() > wait_start+wait_timeout:
                        RNS.log("Could not save known destinations to storage, waiting for previous save operation timed out.", RNS.LOG_ERROR)
                        return False

            Identity.saving_known_destinations = True
            save_start = time.time()

            storage_known_destinations = {}
            if os.path.isfile(RNS.Reticulum.storagepath+"/known_destinations"):
                try:
                    file = open(RNS.Reticulum.storagepath+"/known_destinations","rb")
                    storage_known_destinations = umsgpack.load(file)
                    file.close()
                except:
                    pass

            for destination_hash in storage_known_destinations:
                if not destination_hash in Identity.known_destinations:
                    Identity.known_destinations[destination_hash] = storage_known_destinations[destination_hash]

            RNS.log("Saving "+str(len(Identity.known_destinations))+" known destinations to storage...", RNS.LOG_DEBUG)
            file = open(RNS.Reticulum.storagepath+"/known_destinations","wb")
            umsgpack.dump(Identity.known_destinations, file)
            file.close()

            save_time = time.time() - save_start
            if save_time < 1:
                time_str = str(round(save_time*1000,2))+"ms"
            else:
                time_str = str(round(save_time,2))+"s"

            RNS.log("Saved known destinations to storage in "+time_str, RNS.LOG_DEBUG)

        except Exception as e:
            RNS.log("Error while saving known destinations to disk, the contained exception was: "+str(e), RNS.LOG_ERROR)

        Identity.saving_known_destinations = False

    @staticmethod
    def load_known_destinations():
        if os.path.isfile(RNS.Reticulum.storagepath+"/known_destinations"):
            try:
                file = open(RNS.Reticulum.storagepath+"/known_destinations","rb")
                loaded_known_destinations = umsgpack.load(file)
                file.close()

                Identity.known_destinations = {}
                for known_destination in loaded_known_destinations:
                    if len(known_destination) == RNS.Reticulum.TRUNCATED_HASHLENGTH//8:
                        Identity.known_destinations[known_destination] = loaded_known_destinations[known_destination]

                RNS.log("Loaded "+str(len(Identity.known_destinations))+" known destination from storage", RNS.LOG_VERBOSE)
            except:
                RNS.log("Error loading known destinations from disk, file will be recreated on exit", RNS.LOG_ERROR)
        else:
            RNS.log("Destinations file does not exist, no known destinations loaded", RNS.LOG_VERBOSE)

    @staticmethod
    def full_hash(data):
        """
        Get a SHA-256 hash of passed data.

        :param data: Data to be hashed as *bytes*.
        :returns: SHA-256 hash as *bytes*
        """
        return RNS.Cryptography.sha256(data)

    @staticmethod
    def truncated_hash(data):
        """
        Get a truncated SHA-256 hash of passed data.

        :param data: Data to be hashed as *bytes*.
        :returns: Truncated SHA-256 hash as *bytes*
        """
        return Identity.full_hash(data)[:(Identity.TRUNCATED_HASHLENGTH//8)]

    @staticmethod
    def get_random_hash():
        """
        Get a random SHA-256 hash.

        :param data: Data to be hashed as *bytes*.
        :returns: Truncated SHA-256 hash of random data as *bytes*
        """
        return Identity.truncated_hash(os.urandom(Identity.TRUNCATED_HASHLENGTH//8))

    @staticmethod
    def validate_announce(packet):
        try:
            if packet.packet_type == RNS.Packet.ANNOUNCE:
                destination_hash = packet.destination_hash
                public_key = packet.data[:Identity.KEYSIZE//8]
                name_hash = packet.data[Identity.KEYSIZE//8:Identity.KEYSIZE//8+Identity.NAME_HASH_LENGTH//8]
                random_hash = packet.data[Identity.KEYSIZE//8+Identity.NAME_HASH_LENGTH//8:Identity.KEYSIZE//8+Identity.NAME_HASH_LENGTH//8+10]
                signature = packet.data[Identity.KEYSIZE//8+Identity.NAME_HASH_LENGTH//8+10:Identity.KEYSIZE//8+Identity.NAME_HASH_LENGTH//8+10+Identity.SIGLENGTH//8]
                app_data = b""
                if len(packet.data) > Identity.KEYSIZE//8+Identity.NAME_HASH_LENGTH//8+10+Identity.SIGLENGTH//8:
                    app_data = packet.data[Identity.KEYSIZE//8+Identity.NAME_HASH_LENGTH//8+10+Identity.SIGLENGTH//8:]

                signed_data = destination_hash+public_key+name_hash+random_hash+app_data

                if not len(packet.data) > Identity.KEYSIZE//8+Identity.NAME_HASH_LENGTH//8+10+Identity.SIGLENGTH//8:
                    app_data = None

                announced_identity = Identity(create_keys=False)
                announced_identity.load_public_key(public_key)

                if announced_identity.pub != None and announced_identity.validate(signature, signed_data):
                    hash_material = name_hash+announced_identity.hash
                    expected_hash = RNS.Identity.full_hash(hash_material)[:RNS.Reticulum.TRUNCATED_HASHLENGTH//8]

                    if destination_hash == expected_hash:
                        # Check if we already have a public key for this destination
                        # and make sure the public key is not different.
                        if destination_hash in Identity.known_destinations:
                            if public_key != Identity.known_destinations[destination_hash][2]:
                                # In reality, this should never occur, but in the odd case
                                # that someone manages a hash collision, we reject the announce.
                                RNS.log("Received announce with valid signature and destination hash, but announced public key does not match already known public key.", RNS.LOG_CRITICAL)
                                RNS.log("This may indicate an attempt to modify network paths, or a random hash collision. The announce was rejected.", RNS.LOG_CRITICAL)
                                return False

                        RNS.Identity.remember(packet.get_hash(), destination_hash, public_key, app_data)
                        del announced_identity

                        if hasattr(packet, "transport_id") and packet.transport_id != None:
                            RNS.log("Valid announce for "+RNS.prettyhexrep(destination_hash)+" "+str(packet.hops)+" hops away, received via "+RNS.prettyhexrep(packet.transport_id)+" on "+str(packet.receiving_interface), RNS.LOG_EXTREME)
                        else:
                            RNS.log("Valid announce for "+RNS.prettyhexrep(destination_hash)+" "+str(packet.hops)+" hops away, received on "+str(packet.receiving_interface), RNS.LOG_EXTREME)

                        return True

                    else:
                        RNS.log("Received invalid announce for "+RNS.prettyhexrep(destination_hash)+": Destination mismatch.", RNS.LOG_DEBUG)
                        return False

                else:
                    RNS.log("Received invalid announce for "+RNS.prettyhexrep(destination_hash)+": Invalid signature.", RNS.LOG_DEBUG)
                    del announced_identity
                    return False
        
        except Exception as e:
            RNS.log("Error occurred while validating announce. The contained exception was: "+str(e), RNS.LOG_ERROR)
            return False

    @staticmethod
    def persist_data():
        if not RNS.Transport.owner.is_connected_to_shared_instance:
            Identity.save_known_destinations()

    @staticmethod
    def exit_handler():
        Identity.persist_data()


    @staticmethod
    def from_bytes(prv_bytes):
        """
        Create a new :ref:`RNS.Identity<api-identity>` instance from *bytes* of private key.
        Can be used to load previously created and saved identities into Reticulum.

        :param prv_bytes: The *bytes* of private a saved private key. **HAZARD!** Never use this to generate a new key by feeding random data in prv_bytes.
        :returns: A :ref:`RNS.Identity<api-identity>` instance, or *None* if the *bytes* data was invalid.
        """
        identity = Identity(create_keys=False)
        if identity.load_private_key(prv_bytes):
            return identity
        else:
            return None


    @staticmethod
    def from_file(path):
        """
        Create a new :ref:`RNS.Identity<api-identity>` instance from a file.
        Can be used to load previously created and saved identities into Reticulum.

        :param path: The full path to the saved :ref:`RNS.Identity<api-identity>` data
        :returns: A :ref:`RNS.Identity<api-identity>` instance, or *None* if the loaded data was invalid.
        """
        identity = Identity(create_keys=False)
        if identity.load(path):
            return identity
        else:
            return None

    def to_file(self, path):
        """
        Saves the identity to a file. This will write the private key to disk,
        and anyone with access to this file will be able to decrypt all
        communication for the identity. Be very careful with this method.

        :param path: The full path specifying where to save the identity.
        :returns: True if the file was saved, otherwise False.
        """
        try:
            with open(path, "wb") as key_file:
                key_file.write(self.get_private_key())
                return True
            return False
        except Exception as e:
            RNS.log("Error while saving identity to "+str(path), RNS.LOG_ERROR)
            RNS.log("The contained exception was: "+str(e))

    def __init__(self,create_keys=True):
        # Initialize keys to none
        self.prv           = None
        self.prv_bytes     = None
        self.sig_prv       = None
        self.sig_prv_bytes = None

        self.pub           = None
        self.pub_bytes     = None
        self.sig_pub       = None
        self.sig_pub_bytes = None

        self.hash          = None
        self.hexhash       = None

        if create_keys:
            self.create_keys()

    def create_keys(self):
        self.prv           = X25519PrivateKey.generate()
        self.prv_bytes     = self.prv.private_bytes()

        self.sig_prv       = Ed25519PrivateKey.generate()
        self.sig_prv_bytes = self.sig_prv.private_bytes()

        self.pub           = self.prv.public_key()
        self.pub_bytes     = self.pub.public_bytes()

        self.sig_pub       = self.sig_prv.public_key()
        self.sig_pub_bytes = self.sig_pub.public_bytes()

        self.update_hashes()

        RNS.log("Identity keys created for "+RNS.prettyhexrep(self.hash), RNS.LOG_VERBOSE)

    def get_private_key(self):
        """
        :returns: The private key as *bytes*
        """
        return self.prv_bytes+self.sig_prv_bytes

    def get_public_key(self):
        """
        :returns: The public key as *bytes*
        """
        return self.pub_bytes+self.sig_pub_bytes

    def load_private_key(self, prv_bytes):
        """
        Load a private key into the instance.

        :param prv_bytes: The private key as *bytes*.
        :returns: True if the key was loaded, otherwise False.
        """
        try:
            self.prv_bytes     = prv_bytes[:Identity.KEYSIZE//8//2]
            self.prv           = X25519PrivateKey.from_private_bytes(self.prv_bytes)
            self.sig_prv_bytes = prv_bytes[Identity.KEYSIZE//8//2:]
            self.sig_prv       = Ed25519PrivateKey.from_private_bytes(self.sig_prv_bytes)
            
            self.pub           = self.prv.public_key()
            self.pub_bytes     = self.pub.public_bytes()

            self.sig_pub       = self.sig_prv.public_key()
            self.sig_pub_bytes = self.sig_pub.public_bytes()

            self.update_hashes()

            return True

        except Exception as e:
            raise e
            RNS.log("Failed to load identity key", RNS.LOG_ERROR)
            RNS.log("The contained exception was: "+str(e), RNS.LOG_ERROR)
            return False

    def load_public_key(self, pub_bytes):
        """
        Load a public key into the instance.

        :param pub_bytes: The public key as *bytes*.
        :returns: True if the key was loaded, otherwise False.
        """
        try:
            self.pub_bytes     = pub_bytes[:Identity.KEYSIZE//8//2]
            self.sig_pub_bytes = pub_bytes[Identity.KEYSIZE//8//2:]

            self.pub           = X25519PublicKey.from_public_bytes(self.pub_bytes)
            self.sig_pub       = Ed25519PublicKey.from_public_bytes(self.sig_pub_bytes)

            self.update_hashes()
        except Exception as e:
            RNS.log("Error while loading public key, the contained exception was: "+str(e), RNS.LOG_ERROR)

    def update_hashes(self):
        self.hash = Identity.truncated_hash(self.get_public_key())
        self.hexhash = self.hash.hex()

    def load(self, path):
        try:
            with open(path, "rb") as key_file:
                prv_bytes = key_file.read()
                return self.load_private_key(prv_bytes)
            return False
        except Exception as e:
            RNS.log("Error while loading identity from "+str(path), RNS.LOG_ERROR)
            RNS.log("The contained exception was: "+str(e))

    def get_salt(self):
        return self.hash

    def get_context(self):
        return None

    def encrypt(self, plaintext):
        """
        Encrypts information for the identity.

        :param plaintext: The plaintext to be encrypted as *bytes*.
        :returns: Ciphertext token as *bytes*.
        :raises: *KeyError* if the instance does not hold a public key.
        """
        if self.pub != None:
            ephemeral_key = X25519PrivateKey.generate()
            ephemeral_pub_bytes = ephemeral_key.public_key().public_bytes()

            shared_key = ephemeral_key.exchange(self.pub)
            
            derived_key = RNS.Cryptography.hkdf(
                length=32,
                derive_from=shared_key,
                salt=self.get_salt(),
                context=self.get_context(),
            )

            fernet = Fernet(derived_key)
            ciphertext = fernet.encrypt(plaintext)
            token = ephemeral_pub_bytes+ciphertext

            return token
        else:
            raise KeyError("Encryption failed because identity does not hold a public key")


    def decrypt(self, ciphertext_token):
        """
        Decrypts information for the identity.

        :param ciphertext: The ciphertext to be decrypted as *bytes*.
        :returns: Plaintext as *bytes*, or *None* if decryption fails.
        :raises: *KeyError* if the instance does not hold a private key.
        """
        if self.prv != None:
            if len(ciphertext_token) > Identity.KEYSIZE//8//2:
                plaintext = None
                try:
                    peer_pub_bytes = ciphertext_token[:Identity.KEYSIZE//8//2]
                    peer_pub = X25519PublicKey.from_public_bytes(peer_pub_bytes)

                    shared_key = self.prv.exchange(peer_pub)

                    derived_key = RNS.Cryptography.hkdf(
                        length=32,
                        derive_from=shared_key,
                        salt=self.get_salt(),
                        context=self.get_context(),
                    )

                    fernet = Fernet(derived_key)
                    ciphertext = ciphertext_token[Identity.KEYSIZE//8//2:]
                    plaintext = fernet.decrypt(ciphertext)

                except Exception as e:
                    RNS.log("Decryption by "+RNS.prettyhexrep(self.hash)+" failed: "+str(e), RNS.LOG_DEBUG)
                    
                return plaintext;
            else:
                RNS.log("Decryption failed because the token size was invalid.", RNS.LOG_DEBUG)
                return None
        else:
            raise KeyError("Decryption failed because identity does not hold a private key")


    def sign(self, message):
        """
        Signs information by the identity.

        :param message: The message to be signed as *bytes*.
        :returns: Signature as *bytes*.
        :raises: *KeyError* if the instance does not hold a private key.
        """
        if self.sig_prv != None:
            try:
                return self.sig_prv.sign(message)    
            except Exception as e:
                RNS.log("The identity "+str(self)+" could not sign the requested message. The contained exception was: "+str(e), RNS.LOG_ERROR)
                raise e
        else:
            raise KeyError("Signing failed because identity does not hold a private key")

    def validate(self, signature, message):
        """
        Validates the signature of a signed message.

        :param signature: The signature to be validated as *bytes*.
        :param message: The message to be validated as *bytes*.
        :returns: True if the signature is valid, otherwise False.
        :raises: *KeyError* if the instance does not hold a public key.
        """
        if self.pub != None:
            try:
                self.sig_pub.verify(signature, message)
                return True
            except Exception as e:
                return False
        else:
            raise KeyError("Signature validation failed because identity does not hold a public key")

    def prove(self, packet, destination=None):
        signature = self.sign(packet.packet_hash)
        if RNS.Reticulum.should_use_implicit_proof():
            proof_data = signature
        else:
            proof_data = packet.packet_hash + signature
        
        if destination == None:
            destination = packet.generate_proof_destination()

        proof = RNS.Packet(destination, proof_data, RNS.Packet.PROOF, attached_interface = packet.receiving_interface)
        proof.send()

    def __str__(self):
        return RNS.prettyhexrep(self.hash)