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using Dino.Entities;
using Gee;
using Xmpp;
using Signal;
using Qlite;
namespace Dino.Plugins.Omemo {
public class TrustManager {
public signal void bad_message_state_updated(Account account, Jid jid, int device_id);
private StreamInteractor stream_interactor;
private Database db;
private DecryptMessageListener decrypt_message_listener;
private TagMessageListener tag_message_listener;
private HashMap<Message, int> message_device_id_map = new HashMap<Message, int>(Message.hash_func, Message.equals_func);
public TrustManager(StreamInteractor stream_interactor, Database db) {
this.stream_interactor = stream_interactor;
this.db = db;
decrypt_message_listener = new DecryptMessageListener(stream_interactor, this, db, message_device_id_map);
tag_message_listener = new TagMessageListener(stream_interactor, this, db, message_device_id_map);
stream_interactor.get_module(MessageProcessor.IDENTITY).received_pipeline.connect(decrypt_message_listener);
stream_interactor.get_module(MessageProcessor.IDENTITY).received_pipeline.connect(tag_message_listener);
}
public void set_blind_trust(Account account, Jid jid, bool blind_trust) {
int identity_id = db.identity.get_id(account.id);
if (identity_id < 0) return;
db.trust.update()
.with(db.trust.identity_id, "=", identity_id)
.with(db.trust.address_name, "=", jid.bare_jid.to_string())
.set(db.trust.blind_trust, blind_trust).perform();
}
public void set_device_trust(Account account, Jid jid, int device_id, TrustLevel trust_level) {
int identity_id = db.identity.get_id(account.id);
db.identity_meta.update()
.with(db.identity_meta.identity_id, "=", identity_id)
.with(db.identity_meta.address_name, "=", jid.bare_jid.to_string())
.with(db.identity_meta.device_id, "=", device_id)
.set(db.identity_meta.trust_level, trust_level).perform();
// Hide messages from untrusted or unknown devices
string selection = null;
string[] selection_args = {};
var app_db = Application.get_default().db;
foreach (Row row in db.content_item_meta.with_device(identity_id, jid.bare_jid.to_string(), device_id).with(db.content_item_meta.trusted_when_received, "=", false)) {
if (selection == null) {
selection = @"$(app_db.content_item.id) = ?";
} else {
selection += @" OR $(app_db.content_item.id) = ?";
}
selection_args += row[db.content_item_meta.content_item_id].to_string();
}
if (selection != null) {
app_db.content_item.update()
.set(app_db.content_item.hide, trust_level == TrustLevel.UNTRUSTED || trust_level == TrustLevel.UNKNOWN)
.where(selection, selection_args)
.perform();
}
if (trust_level == TrustLevel.TRUSTED) {
db.identity_meta.update_last_message_untrusted(identity_id, device_id, null);
bad_message_state_updated(account, jid, device_id);
}
}
private StanzaNode create_encrypted_key_node(uint8[] key, Address address, Store store) throws GLib.Error {
SessionCipher cipher = store.create_session_cipher(address);
CiphertextMessage device_key = cipher.encrypt(key);
debug("Created encrypted key for %s/%d", address.name, address.device_id);
StanzaNode key_node = new StanzaNode.build("key", NS_URI)
.put_attribute("rid", address.device_id.to_string())
.put_node(new StanzaNode.text(Base64.encode(device_key.serialized)));
if (device_key.type == CiphertextType.PREKEY) key_node.put_attribute("prekey", "true");
return key_node;
}
internal EncryptState encrypt_key(StanzaNode header_node, uint8[] keytag, Jid self_jid, Gee.List<Jid> recipients, XmppStream stream, Account account) throws Error {
EncryptState status = new EncryptState();
StreamModule module = stream.get_module(StreamModule.IDENTITY);
//Check we have the bundles and device lists needed to send the message
if (!is_known_address(account, self_jid)) return status;
status.own_list = true;
status.own_devices = get_trusted_devices(account, self_jid).size;
status.other_waiting_lists = 0;
status.other_devices = 0;
foreach (Jid recipient in recipients) {
if (!is_known_address(account, recipient)) {
status.other_waiting_lists++;
}
if (status.other_waiting_lists > 0) return status;
status.other_devices += get_trusted_devices(account, recipient).size;
}
if (status.own_devices == 0 || status.other_devices == 0) return status;
//Encrypt the key for each recipient's device individually
Address address = new Address("", 0);
foreach (Jid recipient in recipients) {
foreach(int32 device_id in get_trusted_devices(account, recipient)) {
if (module.is_ignored_device(recipient, device_id)) {
status.other_lost++;
continue;
}
try {
address.name = recipient.bare_jid.to_string();
address.device_id = (int) device_id;
StanzaNode key_node = create_encrypted_key_node(keytag, address, module.store);
header_node.put_node(key_node);
status.other_success++;
} catch (Error e) {
if (e.code == ErrorCode.UNKNOWN) status.other_unknown++;
else status.other_failure++;
}
}
}
// Encrypt the key for each own device
address.name = self_jid.bare_jid.to_string();
foreach(int32 device_id in get_trusted_devices(account, self_jid)) {
if (module.is_ignored_device(self_jid, device_id)) {
status.own_lost++;
continue;
}
if (device_id != module.store.local_registration_id) {
address.device_id = (int) device_id;
try {
StanzaNode key_node = create_encrypted_key_node(keytag, address, module.store);
header_node.put_node(key_node);
status.own_success++;
} catch (Error e) {
if (e.code == ErrorCode.UNKNOWN) status.own_unknown++;
else status.own_failure++;
}
}
}
return status;
}
public EncryptState encrypt(MessageStanza message, Jid self_jid, Gee.List<Jid> recipients, XmppStream stream, Account account) {
EncryptState status = new EncryptState();
if (!Plugin.ensure_context()) return status;
if (message.to == null) return status;
StreamModule module = stream.get_module(StreamModule.IDENTITY);
try {
//Create a key and use it to encrypt the message
uint8[] key = new uint8[16];
Plugin.get_context().randomize(key);
uint8[] iv = new uint8[16];
Plugin.get_context().randomize(iv);
uint8[] aes_encrypt_result = aes_encrypt(Cipher.AES_GCM_NOPADDING, key, iv, message.body.data);
uint8[] ciphertext = aes_encrypt_result[0:aes_encrypt_result.length-16];
uint8[] tag = aes_encrypt_result[aes_encrypt_result.length-16:aes_encrypt_result.length];
uint8[] keytag = new uint8[key.length + tag.length];
Memory.copy(keytag, key, key.length);
Memory.copy((uint8*)keytag + key.length, tag, tag.length);
StanzaNode header_node;
StanzaNode encrypted_node = new StanzaNode.build("encrypted", NS_URI).add_self_xmlns()
.put_node(header_node = new StanzaNode.build("header", NS_URI)
.put_attribute("sid", module.store.local_registration_id.to_string())
.put_node(new StanzaNode.build("iv", NS_URI)
.put_node(new StanzaNode.text(Base64.encode(iv)))))
.put_node(new StanzaNode.build("payload", NS_URI)
.put_node(new StanzaNode.text(Base64.encode(ciphertext))));
status = encrypt_key(header_node, keytag, self_jid, recipients, stream, account);
message.stanza.put_node(encrypted_node);
Xep.ExplicitEncryption.add_encryption_tag_to_message(message, NS_URI, "OMEMO");
message.body = "[This message is OMEMO encrypted]";
status.encrypted = true;
} catch (Error e) {
warning(@"Signal error while encrypting message: $(e.message)\n");
message.body = "[OMEMO encryption failed]";
status.encrypted = false;
}
return status;
}
public bool is_known_address(Account account, Jid jid) {
int identity_id = db.identity.get_id(account.id);
if (identity_id < 0) return false;
return db.identity_meta.with_address(identity_id, jid.to_string()).with(db.identity_meta.last_active, ">", 0).count() > 0;
}
public Gee.List<int32> get_trusted_devices(Account account, Jid jid) {
Gee.List<int32> devices = new ArrayList<int32>();
int identity_id = db.identity.get_id(account.id);
if (identity_id < 0) return devices;
foreach (Row device in db.identity_meta.get_trusted_devices(identity_id, jid.bare_jid.to_string())) {
if(device[db.identity_meta.trust_level] != TrustLevel.UNKNOWN || device[db.identity_meta.identity_key_public_base64] == null)
devices.add(device[db.identity_meta.device_id]);
}
return devices;
}
private class TagMessageListener : MessageListener {
public string[] after_actions_const = new string[]{ "STORE" };
public override string action_group { get { return "DECRYPT_TAG"; } }
public override string[] after_actions { get { return after_actions_const; } }
private StreamInteractor stream_interactor;
private TrustManager trust_manager;
private Database db;
private HashMap<Message, int> message_device_id_map;
public TagMessageListener(StreamInteractor stream_interactor, TrustManager trust_manager, Database db, HashMap<Message, int> message_device_id_map) {
this.stream_interactor = stream_interactor;
this.trust_manager = trust_manager;
this.db = db;
this.message_device_id_map = message_device_id_map;
}
public override async bool run(Entities.Message message, Xmpp.MessageStanza stanza, Conversation conversation) {
int device_id = 0;
if (message_device_id_map.has_key(message)) {
device_id = message_device_id_map[message];
message_device_id_map.unset(message);
}
// TODO: Handling of files
ContentItem? content_item = stream_interactor.get_module(ContentItemStore.IDENTITY).get_item(conversation, 1, message.id);
if (content_item != null && device_id != 0) {
Jid jid = content_item.jid;
if (conversation.type_ == Conversation.Type.GROUPCHAT) {
jid = message.real_jid;
}
int identity_id = db.identity.get_id(conversation.account.id);
TrustLevel trust_level = (TrustLevel) db.identity_meta.get_device(identity_id, jid.bare_jid.to_string(), device_id)[db.identity_meta.trust_level];
if (trust_level == TrustLevel.UNTRUSTED || trust_level == TrustLevel.UNKNOWN) {
stream_interactor.get_module(ContentItemStore.IDENTITY).set_item_hide(content_item, true);
db.identity_meta.update_last_message_untrusted(identity_id, device_id, message.time);
trust_manager.bad_message_state_updated(conversation.account, jid, device_id);
}
db.content_item_meta.insert()
.value(db.content_item_meta.content_item_id, content_item.id)
.value(db.content_item_meta.identity_id, identity_id)
.value(db.content_item_meta.address_name, jid.bare_jid.to_string())
.value(db.content_item_meta.device_id, device_id)
.value(db.content_item_meta.trusted_when_received, trust_level != TrustLevel.UNTRUSTED)
.perform();
}
return false;
}
}
private class DecryptMessageListener : MessageListener {
public string[] after_actions_const = new string[]{ };
public override string action_group { get { return "DECRYPT"; } }
public override string[] after_actions { get { return after_actions_const; } }
private StreamInteractor stream_interactor;
private TrustManager trust_manager;
private Database db;
private HashMap<Message, int> message_device_id_map;
public DecryptMessageListener(StreamInteractor stream_interactor, TrustManager trust_manager, Database db, HashMap<Message, int> message_device_id_map) {
this.stream_interactor = stream_interactor;
this.trust_manager = trust_manager;
this.db = db;
this.message_device_id_map = message_device_id_map;
}
public override async bool run(Entities.Message message, Xmpp.MessageStanza stanza, Conversation conversation) {
StreamModule module = stream_interactor.module_manager.get_module(conversation.account, StreamModule.IDENTITY);
Store store = module.store;
StanzaNode? _encrypted = stanza.stanza.get_subnode("encrypted", NS_URI);
if (_encrypted == null || MessageFlag.get_flag(stanza) != null || stanza.from == null) return false;
StanzaNode encrypted = (!)_encrypted;
if (message.body == null && Xep.ExplicitEncryption.get_encryption_tag(stanza) == NS_URI) {
message.body = "[This message is OMEMO encrypted]"; // TODO temporary
};
if (!Plugin.ensure_context()) return false;
int identity_id = db.identity.get_id(conversation.account.id);
MessageFlag flag = new MessageFlag();
stanza.add_flag(flag);
StanzaNode? _header = encrypted.get_subnode("header");
if (_header == null) return false;
StanzaNode header = (!)_header;
int sid = header.get_attribute_int("sid");
if (sid <= 0) return false;
var our_nodes = new ArrayList<StanzaNode>();
foreach (StanzaNode key_node in header.get_subnodes("key")) {
debug("Is ours? %d =? %u", key_node.get_attribute_int("rid"), store.local_registration_id);
if (key_node.get_attribute_int("rid") == store.local_registration_id) {
our_nodes.add(key_node);
}
}
foreach (StanzaNode key_node in our_nodes) {
string? payload = encrypted.get_deep_string_content("payload");
string? iv_node = header.get_deep_string_content("iv");
string? key_node_content = key_node.get_string_content();
if (payload == null || iv_node == null || key_node_content == null) continue;
uint8[] key;
uint8[] ciphertext = Base64.decode((!)payload);
uint8[] iv = Base64.decode((!)iv_node);
Gee.List<Jid> possible_jids = new ArrayList<Jid>();
if (conversation.type_ == Conversation.Type.CHAT) {
possible_jids.add(stanza.from.bare_jid);
} else {
Jid? real_jid = message.real_jid;
if (real_jid != null) {
possible_jids.add(real_jid.bare_jid);
} else if (key_node.get_attribute_bool("prekey")) {
// pre key messages do store the identity key, so we can use that to find the real jid
PreKeySignalMessage msg = Plugin.get_context().deserialize_pre_key_signal_message(Base64.decode((!)key_node_content));
string identity_key = Base64.encode(msg.identity_key.serialize());
foreach (Row row in db.identity_meta.get_with_device_id(identity_id, sid).with(db.identity_meta.identity_key_public_base64, "=", identity_key)) {
try {
possible_jids.add(new Jid(row[db.identity_meta.address_name]));
} catch (InvalidJidError e) {
warning("Ignoring invalid jid from database: %s", e.message);
}
}
if (possible_jids.size != 1) {
continue;
}
} else {
// If we don't know the device name (MUC history w/o MAM), test decryption with all keys with fitting device id
foreach (Row row in db.identity_meta.get_with_device_id(identity_id, sid)) {
try {
possible_jids.add(new Jid(row[db.identity_meta.address_name]));
} catch (InvalidJidError e) {
warning("Ignoring invalid jid from database: %s", e.message);
}
}
}
}
if (possible_jids.size == 0) {
debug("Received message from unknown entity with device id %d", sid);
}
foreach (Jid possible_jid in possible_jids) {
try {
Address address = new Address(possible_jid.to_string(), sid);
if (key_node.get_attribute_bool("prekey")) {
Row? device = db.identity_meta.get_device(identity_id, possible_jid.to_string(), sid);
PreKeySignalMessage msg = Plugin.get_context().deserialize_pre_key_signal_message(Base64.decode((!)key_node_content));
string identity_key = Base64.encode(msg.identity_key.serialize());
if (device != null && device[db.identity_meta.identity_key_public_base64] != null) {
if (device[db.identity_meta.identity_key_public_base64] != identity_key) {
critical("Tried to use a different identity key for a known device id.");
continue;
}
} else {
debug("Learn new device from incoming message from %s/%d", possible_jid.to_string(), sid);
bool blind_trust = db.trust.get_blind_trust(identity_id, possible_jid.to_string(), true);
if (db.identity_meta.insert_device_session(identity_id, possible_jid.to_string(), sid, identity_key, blind_trust ? TrustLevel.TRUSTED : TrustLevel.UNKNOWN) < 0) {
critical("Failed learning a device.");
continue;
}
XmppStream? stream = stream_interactor.get_stream(conversation.account);
if (device == null && stream != null) {
module.request_user_devicelist.begin(stream, possible_jid);
}
}
debug("Starting new session for decryption with device from %s/%d", possible_jid.to_string(), sid);
SessionCipher cipher = store.create_session_cipher(address);
key = cipher.decrypt_pre_key_signal_message(msg);
// TODO: Finish session
} else {
debug("Continuing session for decryption with device from %s/%d", possible_jid.to_string(), sid);
SignalMessage msg = Plugin.get_context().deserialize_signal_message(Base64.decode((!)key_node_content));
SessionCipher cipher = store.create_session_cipher(address);
key = cipher.decrypt_signal_message(msg);
}
//address.device_id = 0; // TODO: Hack to have address obj live longer
if (key.length >= 32) {
int authtaglength = key.length - 16;
uint8[] new_ciphertext = new uint8[ciphertext.length + authtaglength];
uint8[] new_key = new uint8[16];
Memory.copy(new_ciphertext, ciphertext, ciphertext.length);
Memory.copy((uint8*)new_ciphertext + ciphertext.length, (uint8*)key + 16, authtaglength);
Memory.copy(new_key, key, 16);
ciphertext = new_ciphertext;
key = new_key;
}
message.body = arr_to_str(aes_decrypt(Cipher.AES_GCM_NOPADDING, key, iv, ciphertext));
message_device_id_map[message] = address.device_id;
message.encryption = Encryption.OMEMO;
flag.decrypted = true;
} catch (Error e) {
debug("Decrypting message from %s/%d failed: %s", possible_jid.to_string(), sid, e.message);
continue;
}
// If we figured out which real jid a message comes from due to decryption working, save it
if (conversation.type_ == Conversation.Type.GROUPCHAT && message.real_jid == null) {
message.real_jid = possible_jid;
}
return false;
}
}
if (our_nodes.size == 0) {
db.identity_meta.update_last_message_undecryptable(identity_id, sid, message.time);
trust_manager.bad_message_state_updated(conversation.account, message.from, sid);
}
debug("Received OMEMO encryped message that could not be decrypted.");
return false;
}
private string arr_to_str(uint8[] arr) {
// null-terminate the array
uint8[] rarr = new uint8[arr.length+1];
Memory.copy(rarr, arr, arr.length);
return (string)rarr;
}
}
}
}
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