matrixion/src/Olm.cpp

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#include "Olm.hpp"
#include "Cache.h"
#include "Logging.hpp"
#include "MatrixClient.h"
using namespace mtx::crypto;
static const std::string STORAGE_SECRET_KEY("secret");
constexpr auto MEGOLM_ALGO = "m.megolm.v1.aes-sha2";
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;
nhlog::crypto()->info("received {} to_device messages", msgs.size());
for (const auto &msg : msgs) {
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if (msg.count("type") == 0) {
nhlog::crypto()->warn("received message with no type field: {}",
msg.dump(2));
continue;
}
std::string msg_type = msg.at("type");
if (msg_type == to_string(mtx::events::EventType::RoomEncrypted)) {
try {
OlmMessage olm_msg = msg;
handle_olm_message(std::move(olm_msg));
} catch (const nlohmann::json::exception &e) {
nhlog::crypto()->warn(
"parsing error for olm message: {} {}", e.what(), msg.dump(2));
} catch (const std::invalid_argument &e) {
nhlog::crypto()->warn(
"validation error for olm message: {} {}", e.what(), msg.dump(2));
}
} else if (msg_type == to_string(mtx::events::EventType::RoomKeyRequest)) {
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nhlog::crypto()->warn("handling key request event: {}", msg.dump(2));
try {
mtx::events::msg::KeyRequest req = msg;
if (req.action == mtx::events::msg::RequestAction::Request)
handle_key_request_message(std::move(req));
else
nhlog::crypto()->warn(
"ignore key request (unhandled action): {}",
req.request_id);
} catch (const nlohmann::json::exception &e) {
nhlog::crypto()->warn(
"parsing error for key_request message: {} {}",
e.what(),
msg.dump(2));
}
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} else {
nhlog::crypto()->warn("unhandled event: {}", msg.dump(2));
}
}
}
void
handle_olm_message(const OlmMessage &msg)
{
nhlog::crypto()->info("sender : {}", msg.sender);
nhlog::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;
nhlog::crypto()->info("type: {}", type == 0 ? "OLM_PRE_KEY" : "OLM_MESSAGE");
auto payload = try_olm_decryption(msg.sender_key, cipher.second);
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if (!payload.is_null()) {
nhlog::crypto()->info("decrypted olm payload: {}", payload.dump(2));
create_inbound_megolm_session(msg.sender, msg.sender_key, payload);
return;
}
// Not a PRE_KEY message
if (cipher.second.type != 0) {
// TODO: log that it should have matched something
return;
}
handle_pre_key_olm_message(msg.sender, msg.sender_key, cipher.second);
}
}
void
handle_pre_key_olm_message(const std::string &sender,
const std::string &sender_key,
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const mtx::events::msg::OlmCipherContent &content)
{
nhlog::crypto()->info("opening olm session with {}", sender);
OlmSessionPtr inbound_session = nullptr;
try {
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inbound_session =
olm::client()->create_inbound_session_from(sender_key, content.body);
// We also remove the one time key used to establish that
// session so we'll have to update our copy of the account object.
cache::client()->saveOlmAccount(olm::client()->save("secret"));
} catch (const olm_exception &e) {
nhlog::crypto()->critical(
"failed to create inbound session with {}: {}", sender, e.what());
return;
}
if (!matches_inbound_session_from(inbound_session.get(), sender_key, content.body)) {
nhlog::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(), content.type, content.body);
} catch (const olm_exception &e) {
nhlog::crypto()->critical(
"failed to decrypt olm message {}: {}", content.body, e.what());
return;
}
auto plaintext = json::parse(std::string((char *)output.data(), output.size()));
nhlog::crypto()->info("decrypted message: \n {}", plaintext.dump(2));
try {
cache::client()->saveOlmSession(sender_key, std::move(inbound_session));
} catch (const lmdb::error &e) {
nhlog::db()->warn(
"failed to save inbound olm session from {}: {}", sender, e.what());
}
create_inbound_megolm_session(sender, sender_key, plaintext);
}
mtx::events::msg::Encrypted
encrypt_group_message(const std::string &room_id,
const std::string &device_id,
const std::string &body)
{
using namespace mtx::events;
// Always chech before for existence.
auto res = cache::client()->getOutboundMegolmSession(room_id);
auto payload = olm::client()->encrypt_group_message(res.session, body);
// Prepare the m.room.encrypted event.
msg::Encrypted data;
data.ciphertext = std::string((char *)payload.data(), payload.size());
data.sender_key = olm::client()->identity_keys().curve25519;
data.session_id = res.data.session_id;
data.device_id = device_id;
data.algorithm = MEGOLM_ALGO;
auto message_index = olm_outbound_group_session_message_index(res.session);
nhlog::crypto()->info("next message_index {}", message_index);
// We need to re-pickle the session after we send a message to save the new message_index.
cache::client()->updateOutboundMegolmSession(room_id, message_index);
return data;
}
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nlohmann::json
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try_olm_decryption(const std::string &sender_key, const mtx::events::msg::OlmCipherContent &msg)
{
auto session_ids = cache::client()->getOlmSessions(sender_key);
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nhlog::crypto()->info("attempt to decrypt message with {} known session_ids",
session_ids.size());
for (const auto &id : session_ids) {
auto session = cache::client()->getOlmSession(sender_key, id);
if (!session)
continue;
mtx::crypto::BinaryBuf text;
try {
text = olm::client()->decrypt_message(session->get(), msg.type, msg.body);
cache::client()->saveOlmSession(id, std::move(session.value()));
} catch (const olm_exception &e) {
nhlog::crypto()->info("failed to decrypt olm message ({}, {}) with {}: {}",
msg.type,
sender_key,
id,
e.what());
continue;
} catch (const lmdb::error &e) {
nhlog::crypto()->critical("failed to save session: {}", e.what());
return {};
}
try {
return json::parse(std::string((char *)text.data(), text.size()));
} catch (const json::exception &e) {
nhlog::crypto()->critical("failed to parse the decrypted session msg: {}",
e.what());
}
}
return {};
}
void
create_inbound_megolm_session(const std::string &sender,
const std::string &sender_key,
const nlohmann::json &payload)
{
std::string room_id, session_id, session_key;
try {
room_id = payload.at("content").at("room_id");
session_id = payload.at("content").at("session_id");
session_key = payload.at("content").at("session_key");
} catch (const nlohmann::json::exception &e) {
nhlog::crypto()->critical(
"failed to parse plaintext olm message: {} {}", e.what(), payload.dump(2));
return;
}
MegolmSessionIndex index;
index.room_id = room_id;
index.session_id = session_id;
index.sender_key = sender_key;
try {
auto megolm_session = olm::client()->init_inbound_group_session(session_key);
cache::client()->saveInboundMegolmSession(index, std::move(megolm_session));
} catch (const lmdb::error &e) {
nhlog::crypto()->critical("failed to save inbound megolm session: {}", e.what());
return;
} catch (const olm_exception &e) {
nhlog::crypto()->critical("failed to create inbound megolm session: {}", e.what());
return;
}
nhlog::crypto()->info("established inbound megolm session ({}, {})", room_id, sender);
}
void
mark_keys_as_published()
{
olm::client()->mark_keys_as_published();
cache::client()->saveOlmAccount(olm::client()->save(STORAGE_SECRET_KEY));
}
void
request_keys(const std::string &room_id, const std::string &event_id)
{
nhlog::crypto()->info("requesting keys for event {} at {}", event_id, room_id);
http::v2::client()->get_event(
room_id,
event_id,
[event_id, room_id](const mtx::events::collections::TimelineEvents &res,
mtx::http::RequestErr err) {
using namespace mtx::events;
if (err) {
nhlog::net()->warn(
"failed to retrieve event {} from {}", event_id, room_id);
return;
}
if (!mpark::holds_alternative<EncryptedEvent<msg::Encrypted>>(res)) {
nhlog::net()->info(
"retrieved event is not encrypted: {} from {}", event_id, room_id);
return;
}
olm::send_key_request_for(room_id,
mpark::get<EncryptedEvent<msg::Encrypted>>(res));
});
}
void
send_key_request_for(const std::string &room_id,
const mtx::events::EncryptedEvent<mtx::events::msg::Encrypted> &e)
{
using namespace mtx::events;
nhlog::crypto()->debug("sending key request: {}", json(e).dump(2));
auto payload = json{{"action", "request"},
{"request_id", http::v2::client()->generate_txn_id()},
{"requesting_device_id", http::v2::client()->device_id()},
{"body",
{{"algorithm", MEGOLM_ALGO},
{"room_id", room_id},
{"sender_key", e.content.sender_key},
{"session_id", e.content.session_id}}}};
json body;
body["messages"][e.sender] = json::object();
body["messages"][e.sender][e.content.device_id] = payload;
nhlog::crypto()->debug("m.room_key_request: {}", body.dump(2));
http::v2::client()->send_to_device(
"m.room_key_request", body, [e](mtx::http::RequestErr err) {
if (err) {
nhlog::net()->warn("failed to send "
"send_to_device "
"message: {}",
err->matrix_error.error);
}
nhlog::net()->info(
"m.room_key_request sent to {}:{}", e.sender, e.content.device_id);
});
}
void
handle_key_request_message(const mtx::events::msg::KeyRequest &req)
{
if (req.algorithm != MEGOLM_ALGO) {
nhlog::crypto()->info("ignoring key request {} with invalid algorithm: {}",
req.request_id,
req.algorithm);
return;
}
// Check if we were the sender of the session being requested.
if (req.sender_key != olm::client()->identity_keys().curve25519) {
nhlog::crypto()->info("ignoring key request {} because we were not the sender: "
"\nrequested({}) ours({})",
req.request_id,
req.sender_key,
olm::client()->identity_keys().curve25519);
return;
}
// Check if we have the keys for the requested session.
if (!cache::client()->outboundMegolmSessionExists(req.room_id)) {
nhlog::crypto()->warn("requested session not found in room: {}", req.room_id);
return;
}
// Check that the requested session_id and the one we have saved match.
const auto session = cache::client()->getOutboundMegolmSession(req.room_id);
if (req.session_id != session.data.session_id) {
nhlog::crypto()->warn("session id of retrieved session doesn't match the request: "
"requested({}), ours({})",
req.session_id,
session.data.session_id);
return;
}
//
// Prepare the m.room_key event.
//
auto payload = json{{"algorithm", "m.megolm.v1.aes-sha2"},
{"room_id", req.room_id},
{"session_id", req.session_id},
{"session_key", session.data.session_key}};
send_megolm_key_to_device(req.sender, req.requesting_device_id, payload);
}
void
send_megolm_key_to_device(const std::string &user_id,
const std::string &device_id,
const json &payload)
{
mtx::requests::QueryKeys req;
req.device_keys[user_id] = {device_id};
http::v2::client()->query_keys(
req,
[payload, user_id, device_id](const mtx::responses::QueryKeys &res,
mtx::http::RequestErr err) {
if (err) {
nhlog::net()->warn("failed to query device keys: {} {}",
err->matrix_error.error,
static_cast<int>(err->status_code));
return;
}
nhlog::net()->warn("retrieved device keys from {}, {}", user_id, device_id);
if (res.device_keys.empty()) {
nhlog::net()->warn("no devices retrieved {}", user_id);
return;
}
auto device = res.device_keys.begin()->second;
if (device.empty()) {
nhlog::net()->warn("no keys retrieved from user, device {}", user_id);
return;
}
const auto device_keys = device.begin()->second.keys;
const auto curveKey = "curve25519:" + device_id;
const auto edKey = "ed25519:" + device_id;
if ((device_keys.find(curveKey) == device_keys.end()) ||
(device_keys.find(edKey) == device_keys.end())) {
nhlog::net()->info("ignoring malformed keys for device {}", device_id);
return;
}
DevicePublicKeys pks;
pks.ed25519 = device_keys.at(edKey);
pks.curve25519 = device_keys.at(curveKey);
try {
if (!mtx::crypto::verify_identity_signature(json(device.begin()->second),
DeviceId(device_id),
UserId(user_id))) {
nhlog::crypto()->warn("failed to verify identity keys: {}",
json(device).dump(2));
return;
}
} catch (const json::exception &e) {
nhlog::crypto()->warn("failed to parse device key json: {}", e.what());
return;
} catch (const mtx::crypto::olm_exception &e) {
nhlog::crypto()->warn("failed to verify device key json: {}", e.what());
return;
}
auto room_key = olm::client()
->create_room_key_event(UserId(user_id), pks.ed25519, payload)
.dump();
http::v2::client()->claim_keys(
user_id,
{device_id},
[room_key, user_id, device_id, pks](const mtx::responses::ClaimKeys &res,
mtx::http::RequestErr err) {
if (err) {
nhlog::net()->warn("claim keys error: {} {} {}",
err->matrix_error.error,
err->parse_error,
static_cast<int>(err->status_code));
return;
}
nhlog::net()->info("claimed keys for {}", user_id);
if (res.one_time_keys.size() == 0) {
nhlog::net()->info("no one-time keys found for user_id: {}",
user_id);
return;
}
if (res.one_time_keys.find(user_id) == res.one_time_keys.end()) {
nhlog::net()->info("no one-time keys found for user_id: {}",
user_id);
return;
}
auto retrieved_devices = res.one_time_keys.at(user_id);
if (retrieved_devices.empty()) {
nhlog::net()->info("claiming keys for {}: no retrieved devices",
device_id);
return;
}
json body;
body["messages"][user_id] = json::object();
auto device = retrieved_devices.begin()->second;
nhlog::net()->info("{} : \n {}", device_id, device.dump(2));
json device_msg;
try {
auto olm_session = olm::client()->create_outbound_session(
pks.curve25519, device.begin()->at("key"));
device_msg = olm::client()->create_olm_encrypted_content(
olm_session.get(), room_key, pks.curve25519);
cache::client()->saveOlmSession(pks.curve25519,
std::move(olm_session));
} catch (const json::exception &e) {
nhlog::crypto()->warn("creating outbound session: {}",
e.what());
return;
} catch (const mtx::crypto::olm_exception &e) {
nhlog::crypto()->warn("creating outbound session: {}",
e.what());
return;
}
body["messages"][user_id][device_id] = device_msg;
nhlog::net()->info(
"sending m.room_key event to {}:{}", user_id, device_id);
http::v2::client()->send_to_device(
"m.room.encrypted", body, [user_id](mtx::http::RequestErr err) {
if (err) {
nhlog::net()->warn("failed to send "
"send_to_device "
"message: {}",
err->matrix_error.error);
}
nhlog::net()->info("m.room_key send to {}", user_id);
});
});
});
}
} // namespace olm