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forked from blue/squawk
squawk/core/handlers/trusthandler.cpp

391 lines
14 KiB
C++

// Squawk messenger.
// Copyright (C) 2019 Yury Gubich <blue@macaw.me>
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
#include "trusthandler.h"
#include "core/account.h"
using namespace Core;
Core::TrustHandler::TrustHandler(Account* account):
acc(account),
db(acc->getName() + "/trust"),
protocols(db.createDirectory() + "/protocols"),
securityPolicies(db.addCache<QString, uint8_t>("securityPolicies")),
ownKeys(db.addCache<QString, QByteArray>("ownKeys")),
keysByProtocol()
{
if (!protocols.open(QIODevice::ReadWrite | QIODevice::Text)) { //never supposed to happen since I have just created a directory;
throw DataBase::Directory(protocols.fileName().toStdString());
}
QTextStream in(&protocols);
while(!in.atEnd()) {
QString protocol = in.readLine();
if (protocol.size() > 1) { //I'm afraid of reading some nonsence like separately standing \n or EF or BOM, so... let it be at least 2 chars long
KeyCache* cache = db.addCache<QString, Keys>(protocol.toStdString());
keysByProtocol.insert(std::make_pair(protocol, cache));
}
}
protocols.close();
db.open();
}
Core::TrustHandler::~TrustHandler() {
protocols.close();
db.close();
}
Core::TrustHandler::KeyCache * Core::TrustHandler::getCache(const QString& encryption) {
std::map<QString, KeyCache*>::iterator itr = keysByProtocol.find(encryption);
if (itr == keysByProtocol.end()) {
return createNewCache(encryption);
} else {
return itr->second;
}
}
Core::TrustHandler::KeyCache * Core::TrustHandler::createNewCache(const QString& encryption) {
db.close();
KeyCache* cache = db.addCache<QString, Keys>(encryption.toStdString());
keysByProtocol.insert(std::make_pair(encryption, cache));
if(!protocols.open(QIODevice::WriteOnly | QIODevice::Append | QIODevice::Text)) {
throw DataBase::Directory(protocols.fileName().toStdString());
}
QTextStream out(&protocols);
out << encryption + "\n";
protocols.close();
db.open();
return cache;
}
QFuture<void> Core::TrustHandler::emptyVoidFuture() {
QFutureInterface<QXmppOmemoStorage::OmemoData> result(QFutureInterfaceBase::Started);
result.reportFinished();
return result.future();
}
QFuture<void> Core::TrustHandler::resetAll(const QString& encryption) {
securityPolicies->removeRecord(encryption);
ownKeys->removeRecord(encryption);
getCache(encryption)->drop();
return emptyVoidFuture();
}
QFuture<QXmpp::TrustLevel> Core::TrustHandler::trustLevel(
const QString& encryption,
const QString& keyOwnerJid,
const QByteArray& keyId)
{
Keys map = getCache(encryption)->getRecord(keyOwnerJid);
Shared::TrustLevel level = map.at(keyId);
QFutureInterface<QXmpp::TrustLevel> result(QFutureInterfaceBase::Started);
result.reportResult(convert(level));
result.reportFinished();
return result.future();
}
QFuture<QHash<QString, QMultiHash<QString, QByteArray>>> Core::TrustHandler::setTrustLevel(
const QString& encryption,
const QList<QString>& keyOwnerJids,
QXmpp::TrustLevel oldTrustLevel,
QXmpp::TrustLevel newTrustLevel)
{
QHash<QString, QMultiHash<QString, QByteArray>> modifiedKeys;
Shared::TrustLevel oldLevel = convert(oldTrustLevel);
Shared::TrustLevel newLevel = convert(newTrustLevel);
KeyCache* cache = getCache(encryption);
for (const QString& keyOwnerJid : keyOwnerJids) {
Keys map = cache->getRecord(keyOwnerJid);
uint count = 0;
for (std::pair<const QByteArray, Shared::TrustLevel>& pair : map) {
Shared::TrustLevel& current = pair.second;
if (current == oldLevel) {
current = newLevel;
modifiedKeys[encryption].insert(keyOwnerJid, pair.first);
++count;
}
}
if (count > 0) {
cache->changeRecord(keyOwnerJid, map);
}
}
QFutureInterface<QHash<QString, QMultiHash<QString, QByteArray>>> result(QFutureInterfaceBase::Started);
result.reportResult(modifiedKeys);
result.reportFinished();
return result.future();
}
QFuture<QHash<QString, QMultiHash<QString, QByteArray>>> Core::TrustHandler::setTrustLevel(
const QString& encryption,
const QMultiHash<QString, QByteArray>& keyIds,
QXmpp::TrustLevel trustLevel)
{
QHash<QString, QMultiHash<QString, QByteArray>> modifiedKeys;
Shared::TrustLevel level = convert(trustLevel);
KeyCache* cache = getCache(encryption);
for (MultySB::const_iterator itr = keyIds.begin(), end = keyIds.end(); itr != end; ++itr) {
const QString& keyOwnerJid = itr.key();
const QByteArray& keyId = itr.value();
Keys map = cache->getRecord(keyOwnerJid);
std::pair<Keys::iterator, bool> result = map.insert(std::make_pair(keyId, level));
if (result.second) {
modifiedKeys[encryption].insert(keyOwnerJid, keyId);
cache->changeRecord(keyOwnerJid, map);
} else if (result.first->second != level) {
result.first->second = level;
modifiedKeys[encryption].insert(keyOwnerJid, keyId);
cache->changeRecord(keyOwnerJid, map);
}
}
QFutureInterface<QHash<QString, QMultiHash<QString, QByteArray>>> result(QFutureInterfaceBase::Started);
result.reportResult(modifiedKeys);
result.reportFinished();
return result.future();
}
QFuture<bool> TrustHandler::hasKey(const QString& encryption,
const QString& keyOwnerJid,
QXmpp::TrustLevels trustLevels)
{
KeyCache* cache = getCache(encryption);
bool found = false;
try {
Keys map = cache->getRecord(keyOwnerJid);
for (const std::pair<const QByteArray, Shared::TrustLevel>& pair : map) {
if (trustLevels.testFlag(convert(pair.second))) {
found = true;
break;
}
}
} catch (const DataBase::NotFound& e) {}
QFutureInterface<bool> result(QFutureInterfaceBase::Started);
result.reportResult(found);
result.reportFinished();
return result.future();
}
QFuture<QHash<QString, QHash<QByteArray, QXmpp::TrustLevel>>> TrustHandler::keys(
const QString& encryption,
const QList<QString>& keyOwnerJids,
QXmpp::TrustLevels trustLevels)
{
HSHBTL res;
KeyCache* cache = getCache(encryption);
for (const QString& keyOwnerJid : keyOwnerJids) {
try {
Keys map = cache->getRecord(keyOwnerJid);
QHash<QByteArray, QXmpp::TrustLevel>& pRes = res[keyOwnerJid];
for (const std::pair<const QByteArray, Shared::TrustLevel>& pair : map) {
QXmpp::TrustLevel level = convert(pair.second);
if (!trustLevels || trustLevels.testFlag(level)) {
pRes.insert(pair.first, level);
}
}
} catch (const DataBase::NotFound& e) {}
}
QFutureInterface<HSHBTL> result(QFutureInterfaceBase::Started);
result.reportResult(res);
result.reportFinished();
return result.future();
}
QFuture<QHash<QXmpp::TrustLevel, QMultiHash<QString, QByteArray>>> TrustHandler::keys(
const QString& encryption,
QXmpp::TrustLevels trustLevels)
{
QHash<TL, MultySB> res;
KeyCache* cache = getCache(encryption);
std::map<QString, Keys> storage = cache->readAll();
for (const std::pair<const QString, Keys>& value : storage) {
for (const std::pair<const QByteArray, Shared::TrustLevel>& pair : value.second) {
QXmpp::TrustLevel level = convert(pair.second);
if (!trustLevels || trustLevels.testFlag(level)) {
res[level].insert(value.first, pair.first);
}
}
}
QFutureInterface<QHash<TL, MultySB>> result(QFutureInterfaceBase::Started);
result.reportResult(res);
result.reportFinished();
return result.future();
}
QFuture<void> TrustHandler::removeKeys(const QString& encryption) {
getCache(encryption)->drop();
return emptyVoidFuture();
}
QFuture<void> TrustHandler::removeKeys(const QString& encryption, const QString& keyOwnerJid) {
getCache(encryption)->removeRecord(keyOwnerJid);
return emptyVoidFuture();
}
QFuture<void> TrustHandler::removeKeys(const QString& encryption, const QList<QByteArray>& keyIds) {
std::set<QByteArray> set;
for (const QByteArray& keyId : keyIds) {
set.insert(keyId);
}
KeyCache* cache = getCache(encryption);
std::map<QString, Keys> data = cache->readAll();
bool changed = false;
for (std::map<QString, Keys>::iterator cItr = data.begin(), cEnd = data.end(); cItr != cEnd; /*no increment*/) {
Keys& byOwner = cItr->second;
for (Keys::const_iterator itr = byOwner.begin(), end = byOwner.end(); itr != end; /*no increment*/) {
const QByteArray& keyId = itr->first;
if (set.erase(keyId)) {
byOwner.erase(itr++);
changed = true;
} else {
++itr;
}
}
if (byOwner.size() > 0) {
data.erase(cItr++);
} else {
++cItr;
}
}
if (changed) {
cache->replaceAll(data);
}
return emptyVoidFuture();
}
QFuture<void> TrustHandler::addKeys(
const QString& encryption,
const QString& keyOwnerJid,
const QList<QByteArray>& keyIds,
QXmpp::TrustLevel trustLevel)
{
KeyCache* cache = getCache(encryption);
Shared::TrustLevel level = convert(trustLevel);
Keys data;
bool had = false;
try {
data = cache->getRecord(keyOwnerJid);
had = true;
} catch (const DataBase::NotFound& e) {}
for (const QByteArray& keyId : keyIds) {
std::pair<Keys::iterator, bool> result = data.insert(std::make_pair(keyId, level));
if (!result.second) {
result.first->second = level;
}
}
if (had) {
cache->changeRecord(keyOwnerJid, data);
} else {
cache->addRecord(keyOwnerJid, data);
}
return emptyVoidFuture();
}
QFuture<QByteArray> TrustHandler::ownKey(const QString& encryption) {
QByteArray res;
try {
res = ownKeys->getRecord(encryption);
} catch (const DataBase::NotFound& e) {}
QFutureInterface<QByteArray> result(QFutureInterfaceBase::Started);
result.reportResult(res);
result.reportFinished();
return result.future();
}
QFuture<void> TrustHandler::resetOwnKey(const QString& encryption) {
try {
ownKeys->removeRecord(encryption);
} catch (const DataBase::NotFound& e) {}
return emptyVoidFuture();
}
QFuture<void> TrustHandler::setOwnKey(const QString& encryption, const QByteArray& keyId) {
ownKeys->forceRecord(encryption, keyId);
return emptyVoidFuture();
}
QFuture<QXmpp::TrustSecurityPolicy> TrustHandler::securityPolicy(const QString& encryption) {
QXmpp::TrustSecurityPolicy res;
try {
res = static_cast<QXmpp::TrustSecurityPolicy>(securityPolicies->getRecord(encryption));
} catch (const DataBase::NotFound& e) {}
QFutureInterface<QXmpp::TrustSecurityPolicy> result(QFutureInterfaceBase::Started);
result.reportResult(res);
result.reportFinished();
return result.future();
}
QFuture<void> TrustHandler::resetSecurityPolicy(const QString& encryption) {
try {
securityPolicies->removeRecord(encryption);
} catch (const DataBase::NotFound& e) {}
return emptyVoidFuture();
}
QFuture<void> TrustHandler::setSecurityPolicy(
const QString& encryption,
QXmpp::TrustSecurityPolicy securityPolicy)
{
uint8_t pol = securityPolicy;
securityPolicies->forceRecord(encryption, pol);
return emptyVoidFuture();
}
Shared::TrustLevel Core::TrustHandler::convert(Core::TrustHandler::TL level)
{
switch (level) {
case QXmpp::TrustLevel::Undecided: return Shared::TrustLevel::Undecided;
case QXmpp::TrustLevel::AutomaticallyDistrusted: return Shared::TrustLevel::AutomaticallyDistrusted;
case QXmpp::TrustLevel::ManuallyDistrusted: return Shared::TrustLevel::ManuallyDistrusted;
case QXmpp::TrustLevel::AutomaticallyTrusted: return Shared::TrustLevel::AutomaticallyTrusted;
case QXmpp::TrustLevel::ManuallyTrusted: return Shared::TrustLevel::ManuallyTrusted;
case QXmpp::TrustLevel::Authenticated: return Shared::TrustLevel::Authenticated;
}
}
Core::TrustHandler::TL Core::TrustHandler::convert(Shared::TrustLevel level)
{
switch (level) {
case Shared::TrustLevel::Undecided: return QXmpp::TrustLevel::Undecided;
case Shared::TrustLevel::AutomaticallyDistrusted: return QXmpp::TrustLevel::AutomaticallyDistrusted;
case Shared::TrustLevel::ManuallyDistrusted: return QXmpp::TrustLevel::ManuallyDistrusted;
case Shared::TrustLevel::AutomaticallyTrusted: return QXmpp::TrustLevel::AutomaticallyTrusted;
case Shared::TrustLevel::ManuallyTrusted: return QXmpp::TrustLevel::ManuallyTrusted;
case Shared::TrustLevel::Authenticated: return QXmpp::TrustLevel::Authenticated;
}
}