WiimoteControllerProvider: Move device getting to another thread

This commit is contained in:
capitalistspz 2024-09-26 21:18:36 +01:00
parent 873b6285b9
commit ae2f5d23b3
3 changed files with 82 additions and 53 deletions

View File

@ -1,9 +1,9 @@
#include "input/api/Wiimote/WiimoteControllerProvider.h" #include "input/api/Wiimote/WiimoteControllerProvider.h"
#include "input/api/Wiimote/NativeWiimoteController.h" #include "input/api/Wiimote/NativeWiimoteController.h"
#include "input/api/Wiimote/WiimoteMessages.h" #include "input/api/Wiimote/WiimoteMessages.h"
#if HAS_HIDAPI
#include "input/api/Wiimote/hidapi/HidapiWiimote.h" #include "input/api/Wiimote/hidapi/HidapiWiimote.h"
#endif
#if BOOST_OS_LINUX #if BOOST_OS_LINUX
#include "input/api/Wiimote/l2cap/L2CapWiimote.h" #include "input/api/Wiimote/l2cap/L2CapWiimote.h"
#endif #endif
@ -16,6 +16,7 @@ WiimoteControllerProvider::WiimoteControllerProvider()
{ {
m_reader_thread = std::thread(&WiimoteControllerProvider::reader_thread, this); m_reader_thread = std::thread(&WiimoteControllerProvider::reader_thread, this);
m_writer_thread = std::thread(&WiimoteControllerProvider::writer_thread, this); m_writer_thread = std::thread(&WiimoteControllerProvider::writer_thread, this);
m_connectionThread = std::jthread(&WiimoteControllerProvider::connectionThread, this);
} }
WiimoteControllerProvider::~WiimoteControllerProvider() WiimoteControllerProvider::~WiimoteControllerProvider()
@ -30,48 +31,40 @@ WiimoteControllerProvider::~WiimoteControllerProvider()
std::vector<std::shared_ptr<ControllerBase>> WiimoteControllerProvider::get_controllers() std::vector<std::shared_ptr<ControllerBase>> WiimoteControllerProvider::get_controllers()
{ {
m_connectedDeviceMutex.lock();
auto devices = m_connectedDevices;
m_connectedDeviceMutex.unlock();
std::scoped_lock lock(m_device_mutex); std::scoped_lock lock(m_device_mutex);
std::queue<uint32> disconnected_wiimote_indices;
for (auto i{0u}; i < m_wiimotes.size(); ++i){
if (!(m_wiimotes[i].connected = m_wiimotes[i].device->write_data({kStatusRequest, 0x00}))){
disconnected_wiimote_indices.push(i);
}
}
const auto valid_new_device = [&](std::shared_ptr<WiimoteDevice> & device) {
const auto writeable = device->write_data({kStatusRequest, 0x00});
const auto not_already_connected =
std::none_of(m_wiimotes.cbegin(), m_wiimotes.cend(),
[device](const auto& it) {
return (*it.device == *device) && it.connected;
});
return writeable && not_already_connected;
};
auto devices = HidapiWiimote::get_devices();
#if BOOST_OS_LINUX
const auto& l2capDevices = L2CapWiimote::get_devices();
std::ranges::copy(l2capDevices, std::back_inserter(devices));
#endif
for (auto& device : devices) for (auto& device : devices)
{ {
if (!valid_new_device(device)) const auto writeable = device->write_data({kStatusRequest, 0x00});
if (!writeable)
continue; continue;
// Replace disconnected wiimotes
if (!disconnected_wiimote_indices.empty()){
const auto idx = disconnected_wiimote_indices.front();
disconnected_wiimote_indices.pop();
m_wiimotes.replace(idx, std::make_unique<Wiimote>(device)); bool isDuplicate = false;
ssize_t lowestReplaceableIndex = -1;
for (ssize_t i = m_wiimotes.size() - 1; i >= 0; --i)
{
const auto& wiimote = m_wiimotes[i];
if (wiimote.device && *wiimote.device == *device)
{
isDuplicate = true;
break;
} }
// Otherwise add them lowestReplaceableIndex = i;
else { }
if (isDuplicate)
continue;
if (lowestReplaceableIndex != -1)
m_wiimotes.replace(lowestReplaceableIndex, std::make_unique<Wiimote>(device));
else
m_wiimotes.push_back(std::make_unique<Wiimote>(device)); m_wiimotes.push_back(std::make_unique<Wiimote>(device));
} }
}
std::vector<std::shared_ptr<ControllerBase>> result; std::vector<std::shared_ptr<ControllerBase>> result;
result.reserve(m_wiimotes.size());
for (size_t i = 0; i < m_wiimotes.size(); ++i) for (size_t i = 0; i < m_wiimotes.size(); ++i)
{ {
result.emplace_back(std::make_shared<NativeWiimoteController>(i)); result.emplace_back(std::make_shared<NativeWiimoteController>(i));
@ -83,7 +76,7 @@ std::vector<std::shared_ptr<ControllerBase>> WiimoteControllerProvider::get_cont
bool WiimoteControllerProvider::is_connected(size_t index) bool WiimoteControllerProvider::is_connected(size_t index)
{ {
std::shared_lock lock(m_device_mutex); std::shared_lock lock(m_device_mutex);
return index < m_wiimotes.size() && m_wiimotes[index].connected; return index < m_wiimotes.size() && m_wiimotes[index].device;
} }
bool WiimoteControllerProvider::is_registered_device(size_t index) bool WiimoteControllerProvider::is_registered_device(size_t index)
@ -150,6 +143,30 @@ WiimoteControllerProvider::WiimoteState WiimoteControllerProvider::get_state(siz
return {}; return {};
} }
void WiimoteControllerProvider::connectionThread(std::stop_token stopToken)
{
SetThreadName("Wiimote-connect");
while (!stopToken.stop_requested())
{
std::vector<WiimoteDevicePtr> devices;
#if HAS_HIDAPI
const auto& hidDevices = HidapiWiimote::get_devices();
std::ranges::move(hidDevices, std::back_inserter(devices));
#endif
#if BOOST_OS_LINUX
const auto& l2capDevices = L2CapWiimote::get_devices();
std::ranges::move(l2capDevices, std::back_inserter(devices));
#endif
{
std::scoped_lock lock(m_connectedDeviceMutex);
m_connectedDevices.clear();
std::ranges::move(devices, std::back_inserter(m_connectedDevices));
}
std::this_thread::sleep_for(std::chrono::seconds(2));
}
}
void WiimoteControllerProvider::reader_thread() void WiimoteControllerProvider::reader_thread()
{ {
SetThreadName("Wiimote-reader"); SetThreadName("Wiimote-reader");
@ -157,7 +174,7 @@ void WiimoteControllerProvider::reader_thread()
while (m_running.load(std::memory_order_relaxed)) while (m_running.load(std::memory_order_relaxed))
{ {
const auto now = std::chrono::steady_clock::now(); const auto now = std::chrono::steady_clock::now();
if (std::chrono::duration_cast<std::chrono::seconds>(now - lastCheck) > std::chrono::seconds(2)) if (std::chrono::duration_cast<std::chrono::seconds>(now - lastCheck) > std::chrono::milliseconds(500))
{ {
// check for new connected wiimotes // check for new connected wiimotes
get_controllers(); get_controllers();
@ -169,11 +186,16 @@ void WiimoteControllerProvider::reader_thread()
for (size_t index = 0; index < m_wiimotes.size(); ++index) for (size_t index = 0; index < m_wiimotes.size(); ++index)
{ {
auto& wiimote = m_wiimotes[index]; auto& wiimote = m_wiimotes[index];
if (!wiimote.connected) if (!wiimote.device)
continue; continue;
const auto read_data = wiimote.device->read_data(); const auto read_data = wiimote.device->read_data();
if (!read_data || read_data->empty()) if (!read_data)
{
wiimote.device.reset();
continue;
}
if (read_data->empty())
continue; continue;
receivedAnyPacket = true; receivedAnyPacket = true;
@ -930,18 +952,15 @@ void WiimoteControllerProvider::writer_thread()
if (index != (size_t)-1 && !data.empty()) if (index != (size_t)-1 && !data.empty())
{ {
if (m_wiimotes[index].rumble) auto& wiimote = m_wiimotes[index];
if (wiimote.rumble)
data[1] |= 1; data[1] |= 1;
if (!wiimote.device->write_data(data))
m_wiimotes[index].connected = m_wiimotes[index].device->write_data(data); wiimote.device.reset();
if (m_wiimotes[index].connected) if (wiimote.device)
{ wiimote.data_ts = std::chrono::high_resolution_clock::now();
m_wiimotes[index].data_ts = std::chrono::high_resolution_clock::now();
}
else else
{ wiimote.rumble = false;
m_wiimotes[index].rumble = false;
}
} }
device_lock.unlock(); device_lock.unlock();

View File

@ -77,16 +77,17 @@ public:
private: private:
std::atomic_bool m_running = false; std::atomic_bool m_running = false;
std::thread m_reader_thread, m_writer_thread; std::thread m_reader_thread, m_writer_thread;
std::shared_mutex m_device_mutex; std::shared_mutex m_device_mutex;
std::jthread m_connectionThread;
std::vector<WiimoteDevicePtr> m_connectedDevices;
std::mutex m_connectedDeviceMutex;
struct Wiimote struct Wiimote
{ {
Wiimote(WiimoteDevicePtr device) Wiimote(WiimoteDevicePtr device)
: device(std::move(device)) {} : device(std::move(device)) {}
WiimoteDevicePtr device; WiimoteDevicePtr device;
std::atomic_bool connected = true;
std::atomic_bool rumble = false; std::atomic_bool rumble = false;
std::shared_mutex mutex; std::shared_mutex mutex;
@ -103,6 +104,7 @@ private:
void reader_thread(); void reader_thread();
void writer_thread(); void writer_thread();
void connectionThread(std::stop_token);
void calibrate(size_t index); void calibrate(size_t index);
IRMode set_ir_camera(size_t index, bool state); IRMode set_ir_camera(size_t index, bool state);

View File

@ -7,6 +7,12 @@ namespace {
bool AttemptConnect(int& sockFd, const sockaddr_l2& addr) bool AttemptConnect(int& sockFd, const sockaddr_l2& addr)
{ {
auto res = connect(sockFd, reinterpret_cast<const sockaddr*>(&addr),
sizeof(sockaddr_l2));
if (res == 0)
return true;
if (res != ECONNREFUSED)
return false;
return connect(sockFd, reinterpret_cast<const sockaddr*>(&addr), return connect(sockFd, reinterpret_cast<const sockaddr*>(&addr),
sizeof(sockaddr_l2)) == 0; sizeof(sockaddr_l2)) == 0;
} }
@ -105,9 +111,11 @@ std::optional<std::vector<uint8>> L2CapWiimote::read_data()
uint8 buffer[23]; uint8 buffer[23];
const auto nBytes = recv(m_sendFd, buffer, 23, 0); const auto nBytes = recv(m_sendFd, buffer, 23, 0);
if (nBytes < 0 && errno == EWOULDBLOCK)
return std::vector<uint8>{};
// All incoming messages must be prefixed with 0xA1 // All incoming messages must be prefixed with 0xA1
if (nBytes < 2 || buffer[0] != 0xA1) if (nBytes < 2 || buffer[0] != 0xA1)
return {}; return std::nullopt;
return std::vector(buffer + 1, buffer + 1 + nBytes - 1); return std::vector(buffer + 1, buffer + 1 + nBytes - 1);
} }