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/**
* Author: Sven Gothel <sgothel@jausoft.com>
* Copyright (c) 2022 Gothel Software e.K.
*
* 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.
*/
#include <iostream>
#include <cassert>
#include <cinttypes>
#include <cstring>
#include "dbt_base_client_server.hpp"
#include "dbt_server01.hpp"
#include "dbt_client01.hpp"
using namespace direct_bt;
// Singleton test framework, alive until test program ends
static BaseDBTClientServer& base_test_framework = BaseDBTClientServer::get();
/**
* Testing a full Bluetooth server and client lifecycle of operations, requiring two BT adapter:
* - start server advertising
* - start client discovery and connect to server when discovered
* - client/server processing of connection when ready
* - client disconnect
* - server stop advertising
* - security-level: NONE, ENC_ONLY freshly-paired and ENC_ONLY pre-paired
* - reuse server-adapter for client-mode discovery (just toggle on/off)
*/
class DBTClientServer1x {
private:
// timeout check: timeout_value < test_duration + timeout_preempt_diff; // let's timeout here before our timeout timer
static constexpr const fraction_i64 timeout_preempt_diff = 500_ms;
std::mutex mtx_sync;
BTDeviceRef lastCompletedDevice = nullptr;
PairingMode lastCompletedDevicePairingMode = PairingMode::NONE;
BTSecurityLevel lastCompletedDeviceSecurityLevel = BTSecurityLevel::NONE;
EInfoReport lastCompletedDeviceEIR;
public:
void test8x_fullCycle(const std::string& suffix, const int protocolSessionCount, const bool server_client_order,
const bool serverSC, const BTSecurityLevel secLevelServer, const ExpectedPairing serverExpPairing,
const BTSecurityLevel secLevelClient, const ExpectedPairing clientExpPairing)
{
std::shared_ptr<DBTServer01> server = std::make_shared<DBTServer01>("S-"+suffix, EUI48::ALL_DEVICE, BTMode::DUAL,
serverSC, secLevelServer, false /* do_disconnect_ */);
std::shared_ptr<DBTClient01> client = std::make_shared<DBTClient01>("C-"+suffix, EUI48::ALL_DEVICE, BTMode::DUAL, false /* do_disconnect_ */);
test8x_fullCycle(suffix,
protocolSessionCount, DBTConstants::max_connections_per_session, true /* expSuccess */,
server_client_order,
server, secLevelServer, serverExpPairing,
client, secLevelClient, clientExpPairing);
}
void test8x_fullCycle(const std::string& suffix,
const int protocolSessionCount, const int max_connections_per_session, const bool expSuccess,
const bool server_client_order,
std::shared_ptr<DBTServerTest> server, const BTSecurityLevel secLevelServer, const ExpectedPairing serverExpPairing,
std::shared_ptr<DBTClientTest> client, const BTSecurityLevel secLevelClient, const ExpectedPairing clientExpPairing)
{
(void)secLevelServer;
(void)serverExpPairing;
const jau::fraction_timespec t0 = jau::getMonotonicTime();
std::shared_ptr<BTManager> manager = BTManager::get();
{
jau::darray<BTAdapterRef> adapters = manager->getAdapters();
jau::fprintf_td(stderr, "Adapter: Count %u\n", adapters.size());
for(jau::nsize_t i=0; i<adapters.size(); i++) {
jau::fprintf_td(stderr, "%u: %s\n", i, adapters[i]->toString().c_str());
}
REQUIRE( adapters.size() >= 2 );
}
server->setProtocolSessionsLeft(protocolSessionCount);
client->setProtocolSessionsLeft( protocolSessionCount );
client->setKeepConnected( false ); // default, auto-disconnect after work is done
client->setRemoveDevice( false ); // default, test side-effects
client->setDiscoveryPolicy( DiscoveryPolicy::PAUSE_CONNECTED_UNTIL_DISCONNECTED );
ChangedAdapterSetCallback myChangedAdapterSetFunc = DBTEndpoint::initChangedAdapterSetListener(manager,
server_client_order ? std::vector<DBTEndpointRef>{ server, client } : std::vector<DBTEndpointRef>{ client, server } );
const std::string serverName = server->getName();
BTDeviceRegistry::addToWaitForDevices( serverName );
{
BTSecurityRegistry::Entry * sec = BTSecurityRegistry::getOrCreate(serverName);
sec->sec_level = secLevelClient;
}
{
const std::lock_guard<std::mutex> lock(mtx_sync); // RAII-style acquire and relinquish via destructor
lastCompletedDevice = nullptr;
lastCompletedDevicePairingMode = PairingMode::NONE;
lastCompletedDeviceSecurityLevel = BTSecurityLevel::NONE;
lastCompletedDeviceEIR.clear();
}
class MyAdapterStatusListener : public AdapterStatusListener {
private:
DBTClientServer1x& parent;
public:
MyAdapterStatusListener(DBTClientServer1x& p) : parent(p) {}
void deviceReady(BTDeviceRef device, const uint64_t timestamp) override {
(void)timestamp;
const std::lock_guard<std::mutex> lock(parent.mtx_sync); // RAII-style acquire and relinquish via destructor
parent.lastCompletedDevice = device;
parent.lastCompletedDevicePairingMode = device->getPairingMode();
parent.lastCompletedDeviceSecurityLevel = device->getConnSecurityLevel();
parent.lastCompletedDeviceEIR = *device->getEIR();
fprintf_td(stderr, "XXXXXX Client Ready: %s\n", device->toString(true).c_str());
}
std::string toString() const noexcept override { return "DBTClientServer1x::Client"; }
};
std::shared_ptr<AdapterStatusListener> clientAdapterStatusListener = std::make_shared<MyAdapterStatusListener>(*this);
REQUIRE( true == client->getAdapter()->addStatusListener(clientAdapterStatusListener) );
//
// Server start
//
DBTEndpoint::checkInitializedState(server);
DBTServerTest::startAdvertising(server, false /* current_exp_advertising_state */, "test"+suffix+"_startAdvertising");
//
// Client start
//
DBTEndpoint::checkInitializedState(client);
DBTClientTest::startDiscovery(client, false /* current_exp_discovering_state */, "test"+suffix+"_startDiscovery");
BaseDBTClientServer& framework = BaseDBTClientServer::get();
const jau::fraction_i64 timeout_value = framework.get_timeout_value();
jau::fraction_i64 test_duration = 0_s;
bool done = false;
bool timeout = false;
bool max_connections_hit = false;
do {
{
const std::lock_guard<std::mutex> lock(mtx_sync); // RAII-style acquire and relinquish via destructor
done = ! ( protocolSessionCount > server->getProtocolSessionsDoneSuccess() ||
protocolSessionCount > client->getProtocolSessionsDoneSuccess() ||
nullptr == lastCompletedDevice ||
lastCompletedDevice->getConnected() );
}
max_connections_hit = ( protocolSessionCount * max_connections_per_session ) <= server->getDisconnectCount();
test_duration = ( jau::getMonotonicTime() - t0 ).to_fraction_i64();
timeout = framework.is_timedout() ||
( 0_s < timeout_value && timeout_value <= test_duration + timeout_preempt_diff ); // let's timeout here before our timeout timer
if( !done && !max_connections_hit && !timeout ) {
jau::sleep_for( 88_ms );
}
} while( !done && !max_connections_hit && !timeout );
test_duration = ( jau::getMonotonicTime() - t0 ).to_fraction_i64();
fprintf_td(stderr, "\n\n");
fprintf_td(stderr, "****** Test Stats: duration %" PRIi64 " ms, timeout[hit %d, value %s sec], max_connections hit %d\n",
test_duration.to_ms(), timeout, timeout_value.to_string(true).c_str(), max_connections_hit);
fprintf_td(stderr, " Server ProtocolSessions[success %d/%d total, requested %d], disconnects %d of %d max\n",
server->getProtocolSessionsDoneSuccess(), server->getProtocolSessionsDoneTotal(), protocolSessionCount,
server->getDisconnectCount(), ( protocolSessionCount * max_connections_per_session ));
fprintf_td(stderr, " Client ProtocolSessions[success %d/%d total, requested %d], disconnects %d of %d max\n",
client->getProtocolSessionsDoneSuccess(), client->getProtocolSessionsDoneTotal(), protocolSessionCount,
client->getDisconnectCount(), ( protocolSessionCount * max_connections_per_session ));
fprintf_td(stderr, "\n\n");
if( expSuccess ) {
REQUIRE( false == max_connections_hit );
REQUIRE( false == timeout );
{
const std::lock_guard<std::mutex> lock(mtx_sync); // RAII-style acquire and relinquish via destructor
REQUIRE( protocolSessionCount <= server->getProtocolSessionsDoneTotal() );
REQUIRE( protocolSessionCount == server->getProtocolSessionsDoneSuccess() );
REQUIRE( protocolSessionCount <= client->getProtocolSessionsDoneTotal() );
REQUIRE( protocolSessionCount == client->getProtocolSessionsDoneSuccess() );
REQUIRE( nullptr != lastCompletedDevice );
REQUIRE( EIRDataType::NONE != lastCompletedDeviceEIR.getEIRDataMask() );
REQUIRE( false == lastCompletedDevice->getConnected() );
REQUIRE( ( protocolSessionCount * max_connections_per_session ) > server->getDisconnectCount() );
}
}
//
// Client stop
//
const bool current_exp_discovering_state = expSuccess ? true : client->getAdapter()->isDiscovering();
DBTClientTest::stopDiscovery(client, current_exp_discovering_state, "test"+suffix+"_stopDiscovery");
client->close("test"+suffix+"_close");
//
// Server stop
//
DBTServerTest::stop(server, "test"+suffix+"_stop");
if( expSuccess ) {
//
// Validating Security Mode
//
SMPKeyBin clientKeys = SMPKeyBin::read(DBTConstants::CLIENT_KEY_PATH, *lastCompletedDevice, true /* verbose */);
REQUIRE( true == clientKeys.isValid() );
const BTSecurityLevel clientKeysSecLevel = clientKeys.getSecLevel();
REQUIRE( secLevelClient == clientKeysSecLevel);
{
if( ExpectedPairing::PREPAIRED == clientExpPairing && BTSecurityLevel::NONE < secLevelClient ) {
// Using encryption: pre-paired
REQUIRE( PairingMode::PRE_PAIRED == lastCompletedDevicePairingMode );
REQUIRE( BTSecurityLevel::ENC_ONLY == lastCompletedDeviceSecurityLevel ); // pre-paired fixed level, no auth
} else if( ExpectedPairing::NEW_PAIRING == clientExpPairing && BTSecurityLevel::NONE < secLevelClient ) {
// Using encryption: Newly paired
REQUIRE( PairingMode::PRE_PAIRED != lastCompletedDevicePairingMode );
REQUIRE_MSG( "PairingMode client "+to_string(lastCompletedDevicePairingMode)+" not > NONE", PairingMode::NONE < lastCompletedDevicePairingMode );
REQUIRE_MSG( "SecurityLevel client "+to_string(lastCompletedDeviceSecurityLevel)+" not >= "+to_string(secLevelClient), secLevelClient <= lastCompletedDeviceSecurityLevel );
} else if( ExpectedPairing::DONT_CARE == clientExpPairing && BTSecurityLevel::NONE < secLevelClient ) {
// Any encryption, any pairing
REQUIRE_MSG( "PairingMode client "+to_string(lastCompletedDevicePairingMode)+" not > NONE", PairingMode::NONE < lastCompletedDevicePairingMode );
REQUIRE_MSG( "SecurityLevel client "+to_string(lastCompletedDeviceSecurityLevel)+" not >= "+to_string(secLevelClient), secLevelClient <= lastCompletedDeviceSecurityLevel );
} else {
// No encryption: No pairing
REQUIRE( PairingMode::NONE == lastCompletedDevicePairingMode );
REQUIRE( BTSecurityLevel::NONE == lastCompletedDeviceSecurityLevel );
}
}
//
// Validating EIR
//
{
const std::lock_guard<std::mutex> lock(mtx_sync); // RAII-style acquire and relinquish via destructor
fprintf_td(stderr, "lastCompletedDevice.connectedEIR: %s\n", lastCompletedDeviceEIR.toString().c_str());
REQUIRE( EIRDataType::NONE != lastCompletedDeviceEIR.getEIRDataMask() );
REQUIRE( true == lastCompletedDeviceEIR.isSet(EIRDataType::FLAGS) );
REQUIRE( true == lastCompletedDeviceEIR.isSet(EIRDataType::SERVICE_UUID) );
REQUIRE( true == lastCompletedDeviceEIR.isSet(EIRDataType::NAME) );
REQUIRE( true == lastCompletedDeviceEIR.isSet(EIRDataType::CONN_IVAL) );
REQUIRE( serverName == lastCompletedDeviceEIR.getName() );
{
const EInfoReport eir = *lastCompletedDevice->getEIR();
fprintf_td(stderr, "lastCompletedDevice.currentEIR: %s\n", eir.toString().c_str());
REQUIRE( EIRDataType::NONE == eir.getEIRDataMask() );
REQUIRE( 0 == eir.getName().length());
}
}
//
// Now reuse adapter for client mode -> Start discovery + Stop Discovery
//
{
const BTAdapterRef adapter = server->getAdapter();
{ // if( false ) {
adapter->removeAllStatusListener();
}
DBTEndpoint::startDiscovery(adapter, false /* current_exp_discovering_state */);
DBTEndpoint::stopDiscovery(adapter, true /* current_exp_discovering_state */);
}
}
const int count = manager->removeChangedAdapterSetCallback(myChangedAdapterSetFunc);
fprintf_td(stderr, "****** EOL Removed ChangedAdapterSetCallback %d\n", count);
}
};
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