dolphin/Source/Core/InputCommon/GCAdapter.cpp

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// Copyright 2014 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
#include "InputCommon/GCAdapter.h"
#ifndef ANDROID
#define GCADAPTER_USE_LIBUSB_IMPLEMENTATION true
#define GCADAPTER_USE_ANDROID_IMPLEMENTATION false
#else
#define GCADAPTER_USE_LIBUSB_IMPLEMENTATION false
#define GCADAPTER_USE_ANDROID_IMPLEMENTATION true
#endif
#include <algorithm>
#include <array>
#include <mutex>
#include <optional>
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
#include <libusb.h>
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
#include <jni.h>
#endif
#include "Common/BitUtils.h"
#include "Common/Config/Config.h"
#include "Common/Event.h"
#include "Common/Flag.h"
#include "Common/Logging/Log.h"
#include "Common/Thread.h"
#include "Core/Config/MainSettings.h"
#include "Core/Core.h"
#include "Core/CoreTiming.h"
#include "Core/HW/SI/SI.h"
#include "Core/HW/SI/SI_Device.h"
#include "Core/HW/SystemTimers.h"
#include "Core/System.h"
#include "InputCommon/GCPadStatus.h"
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
#include "Common/ScopeGuard.h"
#include "Core/LibusbUtils.h"
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
#include "jni/AndroidCommon/IDCache.h"
#endif
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
#if defined(LIBUSB_API_VERSION)
#define LIBUSB_API_VERSION_EXIST 1
#else
#define LIBUSB_API_VERSION_EXIST 0
#endif
#define LIBUSB_API_VERSION_ATLEAST(v) (LIBUSB_API_VERSION_EXIST && LIBUSB_API_VERSION >= (v))
#define LIBUSB_API_HAS_HOTPLUG LIBUSB_API_VERSION_ATLEAST(0x01000102)
#endif
namespace GCAdapter
{
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
constexpr unsigned int USB_TIMEOUT_MS = 16;
static bool CheckDeviceAccess(libusb_device* device);
static void AddGCAdapter(libusb_device* device);
static void ResetRumbleLockNeeded();
#endif
static void Reset();
static void Setup();
static void ProcessInputPayload(const u8* data, std::size_t size);
static void ReadThreadFunc();
static void WriteThreadFunc();
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
enum class AdapterStatus
{
NotDetected,
Detected,
Error,
};
static std::atomic<AdapterStatus> s_status = AdapterStatus::NotDetected;
static std::atomic<libusb_error> s_adapter_error = LIBUSB_SUCCESS;
static libusb_device_handle* s_handle = nullptr;
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
// Java classes
static jclass s_adapter_class;
static bool s_detected = false;
static int s_fd = 0;
#endif
enum class ControllerType : u8
{
None = 0,
Wired = 1,
Wireless = 2,
};
static std::array<u8, SerialInterface::MAX_SI_CHANNELS> s_controller_rumble;
constexpr size_t CONTROLLER_INPUT_PAYLOAD_EXPECTED_SIZE = 37;
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
constexpr size_t CONTROLLER_OUTPUT_INIT_PAYLOAD_SIZE = 1;
#endif
constexpr size_t CONTROLLER_OUTPUT_RUMBLE_PAYLOAD_SIZE = 5;
struct PortState
{
GCPadStatus origin = {};
GCPadStatus status = {};
ControllerType controller_type = ControllerType::None;
bool is_new_connection = false;
};
// Only access with s_mutex held!
static std::array<PortState, SerialInterface::MAX_SI_CHANNELS> s_port_states;
static std::array<u8, CONTROLLER_OUTPUT_RUMBLE_PAYLOAD_SIZE> s_controller_write_payload;
static std::atomic<int> s_controller_write_payload_size{0};
static std::thread s_read_adapter_thread;
static Common::Flag s_read_adapter_thread_running;
static std::thread s_write_adapter_thread;
static Common::Flag s_write_adapter_thread_running;
static Common::Event s_write_happened;
static std::mutex s_read_mutex;
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
static std::mutex s_init_mutex;
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
static std::mutex s_write_mutex;
#endif
static std::thread s_adapter_detect_thread;
static Common::Flag s_adapter_detect_thread_running;
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
static Common::Event s_hotplug_event;
static std::function<void(void)> s_detect_callback;
#if defined(__FreeBSD__) && __FreeBSD__ >= 11
static bool s_libusb_hotplug_enabled = true;
#else
static bool s_libusb_hotplug_enabled = false;
#endif
#if LIBUSB_API_HAS_HOTPLUG
static libusb_hotplug_callback_handle s_hotplug_handle;
#endif
static std::unique_ptr<LibusbUtils::Context> s_libusb_context;
static u8 s_endpoint_in = 0;
static u8 s_endpoint_out = 0;
#endif
static u64 s_last_init = 0;
static std::optional<Config::ConfigChangedCallbackID> s_config_callback_id = std::nullopt;
static bool s_is_adapter_wanted = false;
static std::array<bool, SerialInterface::MAX_SI_CHANNELS> s_config_rumble_enabled{};
static void ReadThreadFunc()
{
Common::SetCurrentThreadName("GCAdapter Read Thread");
NOTICE_LOG_FMT(CONTROLLERINTERFACE, "GCAdapter read thread started");
#if GCADAPTER_USE_ANDROID_IMPLEMENTATION
bool first_read = true;
JNIEnv* const env = IDCache::GetEnvForThread();
const jfieldID payload_field = env->GetStaticFieldID(s_adapter_class, "controller_payload", "[B");
jobject payload_object = env->GetStaticObjectField(s_adapter_class, payload_field);
auto* const java_controller_payload = reinterpret_cast<jbyteArray*>(&payload_object);
// Get function pointers
const jmethodID getfd_func = env->GetStaticMethodID(s_adapter_class, "GetFD", "()I");
const jmethodID input_func = env->GetStaticMethodID(s_adapter_class, "Input", "()I");
const jmethodID openadapter_func = env->GetStaticMethodID(s_adapter_class, "OpenAdapter", "()Z");
const bool connected = env->CallStaticBooleanMethod(s_adapter_class, openadapter_func);
if (!connected)
{
s_fd = 0;
s_detected = false;
NOTICE_LOG_FMT(CONTROLLERINTERFACE, "GC Adapter failed to open!");
return;
}
#endif
s_write_adapter_thread_running.Set(true);
s_write_adapter_thread = std::thread(WriteThreadFunc);
// Reset rumble once on initial reading
ResetRumble();
while (s_read_adapter_thread_running.IsSet())
{
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
std::array<u8, CONTROLLER_INPUT_PAYLOAD_EXPECTED_SIZE> input_buffer;
int payload_size = 0;
int error = libusb_interrupt_transfer(s_handle, s_endpoint_in, input_buffer.data(),
int(input_buffer.size()), &payload_size, USB_TIMEOUT_MS);
if (error != LIBUSB_SUCCESS)
{
ERROR_LOG_FMT(CONTROLLERINTERFACE, "Read: libusb_interrupt_transfer failed: {}",
LibusbUtils::ErrorWrap(error));
}
if (error == LIBUSB_ERROR_IO)
{
// s_read_adapter_thread_running is cleared by the joiner, not the stopper.
// Reset the device, which may trigger a replug.
error = libusb_reset_device(s_handle);
ERROR_LOG_FMT(CONTROLLERINTERFACE, "Read: libusb_reset_device: {}",
LibusbUtils::ErrorWrap(error));
// If error is nonzero, try fixing it next loop iteration. We can't easily return
// and cleanup program state without getting another thread to call Reset().
}
ProcessInputPayload(input_buffer.data(), payload_size);
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
const int payload_size = env->CallStaticIntMethod(s_adapter_class, input_func);
jbyte* const java_data = env->GetByteArrayElements(*java_controller_payload, nullptr);
ProcessInputPayload(reinterpret_cast<const u8*>(java_data), payload_size);
env->ReleaseByteArrayElements(*java_controller_payload, java_data, 0);
if (first_read)
{
first_read = false;
s_fd = env->CallStaticIntMethod(s_adapter_class, getfd_func);
}
#endif
Common::YieldCPU();
}
// Terminate the write thread on leaving
if (s_write_adapter_thread_running.TestAndClear())
{
s_controller_write_payload_size.store(0);
// Kick the waiting event
s_write_happened.Set();
s_write_adapter_thread.join();
}
#if GCADAPTER_USE_ANDROID_IMPLEMENTATION
s_fd = 0;
s_detected = false;
#endif
NOTICE_LOG_FMT(CONTROLLERINTERFACE, "GCAdapter read thread stopped");
}
static void WriteThreadFunc()
{
Common::SetCurrentThreadName("GCAdapter Write Thread");
NOTICE_LOG_FMT(CONTROLLERINTERFACE, "GCAdapter write thread started");
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
int size = 0;
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
JNIEnv* const env = IDCache::GetEnvForThread();
const jmethodID output_func = env->GetStaticMethodID(s_adapter_class, "Output", "([B)I");
#endif
while (s_write_adapter_thread_running.IsSet())
{
s_write_happened.Wait();
const int write_size = s_controller_write_payload_size.load();
if (write_size)
{
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
const int error =
libusb_interrupt_transfer(s_handle, s_endpoint_out, s_controller_write_payload.data(),
write_size, &size, USB_TIMEOUT_MS);
if (error != LIBUSB_SUCCESS)
{
ERROR_LOG_FMT(CONTROLLERINTERFACE, "Write: libusb_interrupt_transfer failed: {}",
LibusbUtils::ErrorWrap(error));
}
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
const jbyteArray jrumble_array = env->NewByteArray(CONTROLLER_OUTPUT_RUMBLE_PAYLOAD_SIZE);
jbyte* const jrumble = env->GetByteArrayElements(jrumble_array, nullptr);
{
std::lock_guard lk(s_write_mutex);
memcpy(jrumble, s_controller_write_payload.data(), write_size);
}
env->ReleaseByteArrayElements(jrumble_array, jrumble, 0);
env->CallStaticIntMethod(s_adapter_class, output_func, jrumble_array);
#endif
}
Common::YieldCPU();
}
NOTICE_LOG_FMT(CONTROLLERINTERFACE, "GCAdapter write thread stopped");
}
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
#if LIBUSB_API_HAS_HOTPLUG
static int HotplugCallback(libusb_context* ctx, libusb_device* dev, libusb_hotplug_event event,
void* user_data)
{
if (event == LIBUSB_HOTPLUG_EVENT_DEVICE_ARRIVED)
{
if (s_handle == nullptr)
s_hotplug_event.Set();
}
else if (event == LIBUSB_HOTPLUG_EVENT_DEVICE_LEFT)
{
if (s_handle != nullptr && libusb_get_device(s_handle) == dev)
Reset();
// Reset a potential error status now that the adapter is unplugged
if (s_status == AdapterStatus::Error)
{
s_status = AdapterStatus::NotDetected;
if (s_detect_callback != nullptr)
s_detect_callback();
}
}
return 0;
}
#endif
#endif
static void ScanThreadFunc()
{
Common::SetCurrentThreadName("GC Adapter Scanning Thread");
NOTICE_LOG_FMT(CONTROLLERINTERFACE, "GC Adapter scanning thread started");
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
#if LIBUSB_API_HAS_HOTPLUG
#ifndef __FreeBSD__
s_libusb_hotplug_enabled = libusb_has_capability(LIBUSB_CAP_HAS_HOTPLUG) != 0;
#endif
if (s_libusb_hotplug_enabled)
{
const int error = libusb_hotplug_register_callback(
*s_libusb_context,
(libusb_hotplug_event)(LIBUSB_HOTPLUG_EVENT_DEVICE_ARRIVED |
LIBUSB_HOTPLUG_EVENT_DEVICE_LEFT),
LIBUSB_HOTPLUG_ENUMERATE, 0x057e, 0x0337, LIBUSB_HOTPLUG_MATCH_ANY, HotplugCallback,
nullptr, &s_hotplug_handle);
if (error == LIBUSB_SUCCESS)
{
NOTICE_LOG_FMT(CONTROLLERINTERFACE, "Using libUSB hotplug detection");
}
else
{
s_libusb_hotplug_enabled = false;
ERROR_LOG_FMT(CONTROLLERINTERFACE, "Failed to add libUSB hotplug detection callback: {}",
LibusbUtils::ErrorWrap(error));
}
}
#endif
while (s_adapter_detect_thread_running.IsSet())
{
if (s_handle == nullptr)
{
std::lock_guard lk(s_init_mutex);
Setup();
}
if (s_libusb_hotplug_enabled)
s_hotplug_event.Wait();
else
Common::SleepCurrentThread(500);
}
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
JNIEnv* const env = IDCache::GetEnvForThread();
const jmethodID queryadapter_func =
env->GetStaticMethodID(s_adapter_class, "QueryAdapter", "()Z");
while (s_adapter_detect_thread_running.IsSet())
{
if (!s_detected && UseAdapter() &&
env->CallStaticBooleanMethod(s_adapter_class, queryadapter_func))
Setup();
Common::SleepCurrentThread(1000);
}
#endif
NOTICE_LOG_FMT(CONTROLLERINTERFACE, "GC Adapter scanning thread stopped");
}
void SetAdapterCallback(std::function<void(void)> func)
{
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
s_detect_callback = func;
#endif
}
static void RefreshConfig()
{
s_is_adapter_wanted = false;
for (int i = 0; i < SerialInterface::MAX_SI_CHANNELS; ++i)
{
s_is_adapter_wanted |= Config::Get(Config::GetInfoForSIDevice(i)) ==
SerialInterface::SIDevices::SIDEVICE_WIIU_ADAPTER;
s_config_rumble_enabled[i] = Config::Get(Config::GetInfoForAdapterRumble(i));
}
}
void Init()
{
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
if (s_handle != nullptr)
return;
s_libusb_context = std::make_unique<LibusbUtils::Context>();
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
if (s_fd)
return;
#endif
if (Core::GetState() != Core::State::Uninitialized && Core::GetState() != Core::State::Starting)
{
auto& system = Core::System::GetInstance();
auto& core_timing = system.GetCoreTiming();
if ((core_timing.GetTicks() - s_last_init) < system.GetSystemTimers().GetTicksPerSecond())
return;
s_last_init = core_timing.GetTicks();
}
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
s_status = AdapterStatus::NotDetected;
s_adapter_error = LIBUSB_SUCCESS;
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
JNIEnv* const env = IDCache::GetEnvForThread();
const jclass adapter_class = env->FindClass("org/dolphinemu/dolphinemu/utils/Java_GCAdapter");
s_adapter_class = reinterpret_cast<jclass>(env->NewGlobalRef(adapter_class));
#endif
if (!s_config_callback_id)
s_config_callback_id = Config::AddConfigChangedCallback(RefreshConfig);
RefreshConfig();
if (UseAdapter())
StartScanThread();
}
void StartScanThread()
{
if (s_adapter_detect_thread_running.IsSet())
return;
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
if (!s_libusb_context->IsValid())
return;
#endif
s_adapter_detect_thread_running.Set(true);
s_adapter_detect_thread = std::thread(ScanThreadFunc);
}
void StopScanThread()
{
if (s_adapter_detect_thread_running.TestAndClear())
{
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
s_hotplug_event.Set();
#endif
s_adapter_detect_thread.join();
}
}
static void Setup()
{
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
const AdapterStatus prev_status = s_status;
// Reset the error status in case the adapter gets unplugged
if (s_status == AdapterStatus::Error)
s_status = AdapterStatus::NotDetected;
s_port_states.fill({});
s_controller_rumble.fill(0);
const int ret = s_libusb_context->GetDeviceList([](libusb_device* device) {
if (CheckDeviceAccess(device))
{
// Only connect to a single adapter in case the user has multiple connected
AddGCAdapter(device);
return false;
}
return true;
});
if (ret != LIBUSB_SUCCESS)
WARN_LOG_FMT(CONTROLLERINTERFACE, "Failed to get device list: {}", LibusbUtils::ErrorWrap(ret));
if (s_status != AdapterStatus::Detected && prev_status != s_status &&
s_detect_callback != nullptr)
s_detect_callback();
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
s_fd = 0;
s_detected = true;
// Make sure the thread isn't in the middle of shutting down while starting a new one
if (s_read_adapter_thread_running.TestAndClear())
s_read_adapter_thread.join();
s_read_adapter_thread_running.Set(true);
s_read_adapter_thread = std::thread(ReadThreadFunc);
#endif
}
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
static bool CheckDeviceAccess(libusb_device* device)
{
libusb_device_descriptor desc;
int ret = libusb_get_device_descriptor(device, &desc);
if (ret != LIBUSB_SUCCESS)
{
// could not acquire the descriptor, no point in trying to use it.
ERROR_LOG_FMT(CONTROLLERINTERFACE, "libusb_get_device_descriptor failed: {}",
LibusbUtils::ErrorWrap(ret));
return false;
}
if (desc.idVendor != 0x057e || desc.idProduct != 0x0337)
{
// This isnt the device we are looking for.
return false;
}
NOTICE_LOG_FMT(CONTROLLERINTERFACE, "Found GC Adapter with Vendor: {:X} Product: {:X} Devnum: {}",
desc.idVendor, desc.idProduct, 1);
// In case of failure, capture the libusb error code into the adapter status
Common::ScopeGuard status_guard([&ret] {
s_adapter_error = static_cast<libusb_error>(ret);
s_status = AdapterStatus::Error;
});
const u8 bus = libusb_get_bus_number(device);
const u8 port = libusb_get_device_address(device);
ret = libusb_open(device, &s_handle);
if (ret != LIBUSB_SUCCESS)
{
if (ret == LIBUSB_ERROR_ACCESS)
{
ERROR_LOG_FMT(CONTROLLERINTERFACE,
"Dolphin does not have access to this device: Bus {:03d} Device {:03d}: ID "
"{:04X}:{:04X}.",
bus, port, desc.idVendor, desc.idProduct);
}
ERROR_LOG_FMT(CONTROLLERINTERFACE, "libusb_open failed to open device: {}",
LibusbUtils::ErrorWrap(ret));
return false;
}
bool detach_failed = false;
ret = libusb_kernel_driver_active(s_handle, 0);
if (ret == 1) // 1: kernel driver is active
{
// On macos detaching would fail without root or entitlement.
// We assume user is using GCAdapterDriver and therefor don't want to detach anything
#if !defined(__APPLE__)
ret = libusb_detach_kernel_driver(s_handle, 0);
detach_failed =
ret < LIBUSB_SUCCESS && ret != LIBUSB_ERROR_NOT_FOUND && ret != LIBUSB_ERROR_NOT_SUPPORTED;
#endif
if (detach_failed)
{
ERROR_LOG_FMT(CONTROLLERINTERFACE, "libusb_detach_kernel_driver failed: {}",
LibusbUtils::ErrorWrap(ret));
}
}
else if (ret != 0) // 0: kernel driver is not active, but otherwise no error.
{
// Neither 0 nor 1 means an error occured.
ERROR_LOG_FMT(CONTROLLERINTERFACE, "libusb_kernel_driver_active failed: {}",
LibusbUtils::ErrorWrap(ret));
}
// This call makes Nyko-brand (and perhaps other) adapters work.
// However it returns LIBUSB_ERROR_PIPE with Mayflash adapters.
const int transfer = libusb_control_transfer(s_handle, 0x21, 11, 0x0001, 0, nullptr, 0, 1000);
if (transfer < LIBUSB_SUCCESS)
{
WARN_LOG_FMT(CONTROLLERINTERFACE, "libusb_control_transfer failed: {}",
LibusbUtils::ErrorWrap(transfer));
}
// this split is needed so that we don't avoid claiming the interface when
// detaching the kernel driver is successful
if (detach_failed)
{
libusb_close(s_handle);
s_handle = nullptr;
return false;
}
ret = libusb_claim_interface(s_handle, 0);
if (ret != LIBUSB_SUCCESS)
{
ERROR_LOG_FMT(CONTROLLERINTERFACE, "libusb_claim_interface failed: {}",
LibusbUtils::ErrorWrap(ret));
libusb_close(s_handle);
s_handle = nullptr;
return false;
}
// Updating the adapter status will be done in AddGCAdapter
status_guard.Dismiss();
return true;
}
static void AddGCAdapter(libusb_device* device)
{
auto [error, config] = LibusbUtils::MakeConfigDescriptor(device);
if (error != LIBUSB_SUCCESS)
{
WARN_LOG_FMT(CONTROLLERINTERFACE, "libusb_get_config_descriptor failed: {}",
LibusbUtils::ErrorWrap(error));
}
for (u8 ic = 0; ic < config->bNumInterfaces; ic++)
{
const libusb_interface* interfaceContainer = &config->interface[ic];
for (int i = 0; i < interfaceContainer->num_altsetting; i++)
{
const libusb_interface_descriptor* interface = &interfaceContainer->altsetting[i];
for (u8 e = 0; e < interface->bNumEndpoints; e++)
{
const libusb_endpoint_descriptor* endpoint = &interface->endpoint[e];
if (endpoint->bEndpointAddress & LIBUSB_ENDPOINT_IN)
s_endpoint_in = endpoint->bEndpointAddress;
else
s_endpoint_out = endpoint->bEndpointAddress;
}
}
}
config.reset();
int size = 0;
std::array<u8, CONTROLLER_OUTPUT_INIT_PAYLOAD_SIZE> payload = {0x13};
error = libusb_interrupt_transfer(s_handle, s_endpoint_out, payload.data(),
CONTROLLER_OUTPUT_INIT_PAYLOAD_SIZE, &size, USB_TIMEOUT_MS);
if (error != LIBUSB_SUCCESS)
{
WARN_LOG_FMT(CONTROLLERINTERFACE, "AddGCAdapter: libusb_interrupt_transfer failed: {}",
LibusbUtils::ErrorWrap(error));
}
s_read_adapter_thread_running.Set(true);
s_read_adapter_thread = std::thread(ReadThreadFunc);
s_status = AdapterStatus::Detected;
if (s_detect_callback != nullptr)
s_detect_callback();
ResetRumbleLockNeeded();
}
#endif
void Shutdown()
{
StopScanThread();
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
#if LIBUSB_API_HAS_HOTPLUG
if (s_libusb_context->IsValid() && s_libusb_hotplug_enabled)
libusb_hotplug_deregister_callback(*s_libusb_context, s_hotplug_handle);
#endif
#endif
Reset();
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
s_libusb_context.reset();
s_status = AdapterStatus::NotDetected;
#endif
if (s_config_callback_id)
{
Config::RemoveConfigChangedCallback(*s_config_callback_id);
s_config_callback_id = std::nullopt;
}
}
static void Reset()
{
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
std::unique_lock lock(s_init_mutex, std::defer_lock);
if (!lock.try_lock())
return;
if (s_status != AdapterStatus::Detected)
return;
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
if (!s_detected)
return;
#endif
if (s_read_adapter_thread_running.TestAndClear())
s_read_adapter_thread.join();
// The read thread will close the write thread
s_port_states.fill({});
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
s_status = AdapterStatus::NotDetected;
if (s_handle)
{
const int error = libusb_release_interface(s_handle, 0);
if (error != LIBUSB_SUCCESS)
{
WARN_LOG_FMT(CONTROLLERINTERFACE, "libusb_release_interface failed: {}",
LibusbUtils::ErrorWrap(error));
}
libusb_close(s_handle);
s_handle = nullptr;
}
if (s_detect_callback != nullptr)
s_detect_callback();
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
s_detected = false;
s_fd = 0;
#endif
NOTICE_LOG_FMT(CONTROLLERINTERFACE, "GC Adapter detached");
}
GCPadStatus Input(int chan)
{
if (!UseAdapter())
return {};
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
if (s_handle == nullptr || s_status != AdapterStatus::Detected)
return {};
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
if (!s_detected || !s_fd)
return {};
#endif
std::lock_guard lk(s_read_mutex);
auto& pad_state = s_port_states[chan];
// Return the "origin" state for the first input on a new connection.
if (pad_state.is_new_connection)
{
pad_state.is_new_connection = false;
return pad_state.origin;
}
return pad_state.status;
}
// Get ControllerType from first byte in input payload.
static ControllerType IdentifyControllerType(u8 data)
{
if (Common::ExtractBit<4>(data))
return ControllerType::Wired;
if (Common::ExtractBit<5>(data))
return ControllerType::Wireless;
return ControllerType::None;
}
void ProcessInputPayload(const u8* data, std::size_t size)
{
if (size != CONTROLLER_INPUT_PAYLOAD_EXPECTED_SIZE
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
|| data[0] != LIBUSB_DT_HID
#endif
)
{
// This can occur for a few frames on initialization.
ERROR_LOG_FMT(CONTROLLERINTERFACE, "error reading payload (size: {}, type: {:02x})", size,
data[0]);
#if GCADAPTER_USE_ANDROID_IMPLEMENTATION
Reset();
#endif
}
else
{
std::lock_guard lk(s_read_mutex);
for (int chan = 0; chan != SerialInterface::MAX_SI_CHANNELS; ++chan)
{
const u8* const channel_data = &data[1 + (9 * chan)];
const auto type = IdentifyControllerType(channel_data[0]);
auto& pad_state = s_port_states[chan];
GCPadStatus pad = {};
if (type != ControllerType::None)
{
const u8 b1 = channel_data[1];
const u8 b2 = channel_data[2];
if (Common::ExtractBit<0>(b1))
pad.button |= PAD_BUTTON_A;
if (Common::ExtractBit<1>(b1))
pad.button |= PAD_BUTTON_B;
if (Common::ExtractBit<2>(b1))
pad.button |= PAD_BUTTON_X;
if (Common::ExtractBit<3>(b1))
pad.button |= PAD_BUTTON_Y;
if (Common::ExtractBit<4>(b1))
pad.button |= PAD_BUTTON_LEFT;
if (Common::ExtractBit<5>(b1))
pad.button |= PAD_BUTTON_RIGHT;
if (Common::ExtractBit<6>(b1))
pad.button |= PAD_BUTTON_DOWN;
if (Common::ExtractBit<7>(b1))
pad.button |= PAD_BUTTON_UP;
if (Common::ExtractBit<0>(b2))
pad.button |= PAD_BUTTON_START;
if (Common::ExtractBit<1>(b2))
pad.button |= PAD_TRIGGER_Z;
if (Common::ExtractBit<2>(b2))
pad.button |= PAD_TRIGGER_R;
if (Common::ExtractBit<3>(b2))
pad.button |= PAD_TRIGGER_L;
pad.stickX = channel_data[3];
pad.stickY = channel_data[4];
pad.substickX = channel_data[5];
pad.substickY = channel_data[6];
pad.triggerLeft = channel_data[7];
pad.triggerRight = channel_data[8];
}
else if (!Core::WantsDeterminism())
{
// This is a hack to prevent a desync due to SI devices
// being different and returning different values.
// The corresponding code in DeviceGCAdapter has the same check
pad.button = PAD_ERR_STATUS;
}
if (type != ControllerType::None && pad_state.controller_type == ControllerType::None)
{
NOTICE_LOG_FMT(CONTROLLERINTERFACE, "New device connected to Port {} of Type: {:02x}",
chan + 1, channel_data[0]);
pad.button |= PAD_GET_ORIGIN;
pad_state.origin = pad;
pad_state.is_new_connection = true;
}
pad_state.controller_type = type;
pad_state.status = pad;
}
}
}
bool DeviceConnected(int chan)
{
std::lock_guard lk(s_read_mutex);
return s_port_states[chan].controller_type != ControllerType::None;
}
void ResetDeviceType(int chan)
{
std::lock_guard lk(s_read_mutex);
s_port_states[chan].controller_type = ControllerType::None;
}
bool UseAdapter()
{
return s_is_adapter_wanted;
}
void ResetRumble()
{
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
std::unique_lock lock(s_init_mutex, std::defer_lock);
if (!lock.try_lock())
return;
ResetRumbleLockNeeded();
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
std::array<u8, CONTROLLER_OUTPUT_RUMBLE_PAYLOAD_SIZE> rumble = {0x11, 0, 0, 0, 0};
{
std::lock_guard lk(s_write_mutex);
s_controller_write_payload = rumble;
s_controller_write_payload_size.store(CONTROLLER_OUTPUT_RUMBLE_PAYLOAD_SIZE);
}
s_write_happened.Set();
#endif
}
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
// Needs to be called when s_init_mutex is locked in order to avoid
// being called while the libusb state is being reset
static void ResetRumbleLockNeeded()
{
if (!UseAdapter() || (s_handle == nullptr || s_status != AdapterStatus::Detected))
{
return;
}
std::fill(std::begin(s_controller_rumble), std::end(s_controller_rumble), 0);
std::array<u8, CONTROLLER_OUTPUT_RUMBLE_PAYLOAD_SIZE> rumble = {
0x11, s_controller_rumble[0], s_controller_rumble[1], s_controller_rumble[2],
s_controller_rumble[3]};
int size = 0;
const int error =
libusb_interrupt_transfer(s_handle, s_endpoint_out, rumble.data(),
CONTROLLER_OUTPUT_RUMBLE_PAYLOAD_SIZE, &size, USB_TIMEOUT_MS);
if (error != LIBUSB_SUCCESS)
{
WARN_LOG_FMT(CONTROLLERINTERFACE, "ResetRumbleLockNeeded: libusb_interrupt_transfer failed: {}",
LibusbUtils::ErrorWrap(error));
}
INFO_LOG_FMT(CONTROLLERINTERFACE, "Rumble state reset");
}
#endif
void Output(int chan, u8 rumble_command)
{
if (!UseAdapter() || !s_config_rumble_enabled[chan])
return;
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
if (s_handle == nullptr)
return;
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
if (!s_detected || !s_fd)
return;
#endif
// Skip over rumble commands if it has not changed or the controller is wireless
if (rumble_command != s_controller_rumble[chan] &&
s_port_states[chan].controller_type != ControllerType::Wireless)
{
s_controller_rumble[chan] = rumble_command;
std::array<u8, CONTROLLER_OUTPUT_RUMBLE_PAYLOAD_SIZE> rumble = {
0x11, s_controller_rumble[0], s_controller_rumble[1], s_controller_rumble[2],
s_controller_rumble[3]};
{
#if GCADAPTER_USE_ANDROID_IMPLEMENTATION
std::lock_guard lk(s_write_mutex);
#endif
s_controller_write_payload = rumble;
s_controller_write_payload_size.store(CONTROLLER_OUTPUT_RUMBLE_PAYLOAD_SIZE);
}
s_write_happened.Set();
}
}
bool IsDetected(const char** error_message)
{
#if GCADAPTER_USE_LIBUSB_IMPLEMENTATION
if (s_status != AdapterStatus::Error)
{
if (error_message)
*error_message = nullptr;
return s_status == AdapterStatus::Detected;
}
if (error_message)
*error_message = libusb_strerror(s_adapter_error.load());
return false;
#elif GCADAPTER_USE_ANDROID_IMPLEMENTATION
return s_detected;
#endif
}
} // namespace GCAdapter