#include "Olm.hpp"
#include "Cache.h"
#include "Logging.hpp"
using namespace mtx::crypto;
namespace {
auto client_ = std::make_unique<mtx::crypto::OlmClient>();
}
namespace olm {
mtx::crypto::OlmClient *
client()
{
return client_.get();
}
void
handle_to_device_messages(const std::vector<nlohmann::json> &msgs)
{
if (msgs.empty())
return;
log::crypto()->info("received {} to_device messages", msgs.size());
for (const auto &msg : msgs) {
try {
OlmMessage olm_msg = msg;
handle_olm_message(std::move(olm_msg));
} catch (const nlohmann::json::exception &e) {
log::crypto()->warn(
"parsing error for olm message: {} {}", e.what(), msg.dump(2));
} catch (const std::invalid_argument &e) {
log::crypto()->warn(
"validation error for olm message: {} {}", e.what(), msg.dump(2));
}
}
}
void
handle_olm_message(const OlmMessage &msg)
{
log::crypto()->info("sender : {}", msg.sender);
log::crypto()->info("sender_key: {}", msg.sender_key);
const auto my_key = olm::client()->identity_keys().curve25519;
for (const auto &cipher : msg.ciphertext) {
// We skip messages not meant for the current device.
if (cipher.first != my_key)
continue;
const auto type = cipher.second.type;
log::crypto()->info("type: {}", type == 0 ? "OLM_PRE_KEY" : "OLM_MESSAGE");
if (type == OLM_MESSAGE_TYPE_PRE_KEY)
handle_pre_key_olm_message(msg.sender, msg.sender_key, cipher.second);
else
handle_olm_normal_message(msg.sender, msg.sender_key, cipher.second);
}
}
void
handle_pre_key_olm_message(const std::string &sender,
const std::string &sender_key,
const OlmCipherContent &content)
{
log::crypto()->info("opening olm session with {}", sender);
OlmSessionPtr inbound_session = nullptr;
try {
inbound_session = olm::client()->create_inbound_session(content.body);
} catch (const olm_exception &e) {
log::crypto()->critical(
"failed to create inbound session with {}: {}", sender, e.what());
return;
}
if (!matches_inbound_session_from(inbound_session.get(), sender_key, content.body)) {
log::crypto()->warn("inbound olm session doesn't match sender's key ({})", sender);
return;
}
mtx::crypto::BinaryBuf output;
try {
output = olm::client()->decrypt_message(
inbound_session.get(), OLM_MESSAGE_TYPE_PRE_KEY, content.body);
} catch (const olm_exception &e) {
log::crypto()->critical(
"failed to decrypt olm message {}: {}", content.body, e.what());
return;
}
auto plaintext = json::parse(std::string((char *)output.data(), output.size()));
log::crypto()->info("decrypted message: \n {}", plaintext.dump(2));
std::string room_id, session_id, session_key;
try {
room_id = plaintext.at("content").at("room_id");
session_id = plaintext.at("content").at("session_id");
session_key = plaintext.at("content").at("session_key");
} catch (const nlohmann::json::exception &e) {
log::crypto()->critical(
"failed to parse plaintext olm message: {} {}", e.what(), plaintext.dump(2));
return;
}
MegolmSessionIndex index;
index.room_id = room_id;
index.session_id = session_id;
index.sender_key = sender_key;
if (!cache::client()->inboundMegolmSessionExists(index)) {
auto megolm_session = olm::client()->init_inbound_group_session(session_key);
try {
cache::client()->saveInboundMegolmSession(index, std::move(megolm_session));
} catch (const lmdb::error &e) {
log::crypto()->critical("failed to save inbound megolm session: {}",
e.what());
return;
}
log::crypto()->info("established inbound megolm session ({}, {})", room_id, sender);
} else {
log::crypto()->warn(
"inbound megolm session already exists ({}, {})", room_id, sender);
}
}
void
handle_olm_normal_message(const std::string &, const std::string &, const OlmCipherContent &)
{
log::crypto()->warn("olm(1) not implemeted yet");
}
} // namespace olm