MissionControl/btdrv-mitm/source/bluetooth/bluetooth_hid_report.cpp

237 lines
9.2 KiB
C++

#include "bluetooth_hid_report.hpp"
#include "bluetooth_circularbuffer.hpp"
#include "../btdrv_mitm_flags.hpp"
#include "../controllermanager.hpp"
#include "../controllers/bluetoothcontroller.hpp"
#include "../controllers/switchcontroller.hpp"
#include "../btdrv_mitm_logging.hpp"
namespace ams::bluetooth::hid::report {
namespace {
os::ThreadType g_eventHandlerThread;
alignas(os::ThreadStackAlignment) u8 g_eventHandlerThreadStack[0x2000];
SharedMemory g_realBtShmem;
SharedMemory g_fakeBtShmem;
bluetooth::CircularBuffer *g_realCircBuff;
bluetooth::CircularBuffer *g_fakeCircBuff;
os::SystemEventType g_btHidReportSystemEvent;
os::SystemEventType g_btHidReportSystemEventFwd;
os::SystemEventType g_btHidReportSystemEventUser;
u8 g_fakeReportBuffer[0x42] = {};
HidReportData *g_fakeReportData = reinterpret_cast<HidReportData *>(g_fakeReportBuffer);
}
SharedMemory *GetRealSharedMemory(void) {
return &g_realBtShmem;
}
SharedMemory *GetFakeSharedMemory(void) {
return &g_fakeBtShmem;
}
os::SystemEventType *GetSystemEvent(void) {
return &g_btHidReportSystemEvent;
}
os::SystemEventType *GetForwardEvent(void) {
return &g_btHidReportSystemEventFwd;
}
os::SystemEventType *GetUserForwardEvent(void) {
return &g_btHidReportSystemEventUser;
}
Result MapRemoteSharedMemory(Handle handle) {
shmemLoadRemote(&g_realBtShmem, handle, BLUETOOTH_SHAREDMEM_SIZE, Perm_Rw);
R_TRY(shmemMap(&g_realBtShmem));
g_realCircBuff = reinterpret_cast<bluetooth::CircularBuffer *>(shmemGetAddr(&g_realBtShmem));
BTDRV_LOG_FMT("Real shmem @ 0x%p", (void *)g_realCircBuff);
return ams::ResultSuccess();
}
Result InitializeFakeSharedMemory(void) {
R_TRY(shmemCreate(&g_fakeBtShmem, BLUETOOTH_SHAREDMEM_SIZE, Perm_Rw, Perm_Rw));
R_TRY(shmemMap(&g_fakeBtShmem));
g_fakeCircBuff = reinterpret_cast<CircularBuffer *>(shmemGetAddr(&g_fakeBtShmem));
BTDRV_LOG_FMT("Fake shmem @ 0x%p", (void *)g_fakeCircBuff);
// Initialise fake hid report buffer
g_fakeCircBuff->Initialize("HID Report");
g_fakeCircBuff->id = 1;
g_fakeCircBuff->_unk3 = 1;
return ams::ResultSuccess();
}
Result ProcessHidReportPackets(CircularBuffer *realBuffer, CircularBuffer *fakeBuffer) {
controller::BluetoothController *controller;
CircularBufferPacket *realPacket;
/*
BTDRV_LOG_FMT("realBuffer: name: %s, roffs: %d, woffs: %d, capacity: %d, _unk3: %d, id: %d",
realBuffer->name,
realBuffer->readOffset,
realBuffer->writeOffset,
realBuffer->size,
realBuffer->_unk3,
realBuffer->id);
BTDRV_LOG_FMT("fakeBuffer: name: %s, roffs: %d, woffs: %d, capacity: %d, _unk3: %d, id: %d",
fakeBuffer->name,
fakeBuffer->readOffset,
fakeBuffer->writeOffset,
fakeBuffer->size,
fakeBuffer->_unk3,
fakeBuffer->id);
*/
// Take snapshot of current write offset
u32 writeOffset = realBuffer->writeOffset;
while (true) {
if (realBuffer->readOffset == writeOffset)
break;
// Get packet from real buffer
//realPacket = reinterpret_cast<bluetooth::CircularBufferPacket *>(realBuffer->_read());
realPacket = reinterpret_cast<CircularBufferPacket *>(&realBuffer->data[realBuffer->readOffset]);
if (!realPacket)
break;
// Move read pointer past current packet (I think this is what Free does)
if (realBuffer->readOffset != writeOffset) {
u32 newOffset = realBuffer->readOffset + realPacket->header.size + sizeof(CircularBufferPacketHeader);
if (newOffset >= BLUETOOTH_CIRCBUFFER_SIZE)
newOffset = 0;
realBuffer->_setReadOffset(newOffset);
}
//BTDRV_LOG_DATA(&realPacket->data, realPacket->header.size);
//BTDRV_LOG_DATA(realPacket, realPacket->header.size + sizeof(bluetooth::CircularBufferPacketHeader));
//BTDRV_LOG_FMT("fakeBuffer: [%d] writing %d bytes to data[%d]", realPacket->header.type, realPacket->header.size + sizeof(bluetooth::CircularBufferPacketHeader), fakeBuffer->writeOffset);
switch (realPacket->header.type) {
case 0xff:
// Skip over packet type 0xff. This packet indicates the buffer should wrap around on next read.
// Since our buffer read and write offsets can differ from the real buffer we want to write this ourselves
// when appropriate via CircularBuffer::Write()
continue;
case 4:
{
// Locate the controller that sent the report
controller = ams::mitm::btdrv::locateController(hos::GetVersion() < hos::Version_9_0_0 ? &realPacket->data.address : &realPacket->data.v2.address);
if (!controller) {
continue;
}
if (controller->isSwitchController()) {
// Write unmodified packet directly to fake buffer (_write call will add new timestamp)
fakeBuffer->Write(realPacket->header.type, &realPacket->data, realPacket->header.size);
}
else {
const HidReport *inReport;
HidReport *outReport;
// copy address and stuff over
if (hos::GetVersion() < hos::Version_10_0_0) {
g_fakeReportData->size = 0; // Todo: calculate size of report data
std::memcpy(&g_fakeReportData->address, &realPacket->data.address, sizeof(BluetoothAddress));
inReport = &realPacket->data.report;
outReport = &g_fakeReportData->report;
}
else {
std::memcpy(&g_fakeReportData->v2.address, &realPacket->data.v2.address, sizeof(BluetoothAddress));
inReport = &realPacket->data.v2.report;
outReport = &g_fakeReportData->v2.report;
}
auto switchData = reinterpret_cast<controller::SwitchReportData *>(&outReport->data);
switchData->report0x30.timer = os::ConvertToTimeSpan(realPacket->header.timestamp).GetMilliSeconds() & 0xff;
// Translate packet to switch pro format
controller->convertReportFormat(inReport, outReport);
//BTDRV_LOG_DATA(g_fakeReportData, sizeof(g_fakeReportBuffer));
// Write the converted report to our fake buffer
fakeBuffer->Write(4, g_fakeReportData, sizeof(g_fakeReportBuffer));
}
}
break;
default:
BTDRV_LOG_FMT("unknown packet received: %d", realPacket->header.type);
fakeBuffer->Write(realPacket->header.type, &realPacket->data, realPacket->header.size);
break;
}
}
return ams::ResultSuccess();
}
void HandleEvent(void) {
ProcessHidReportPackets(g_realCircBuff, g_fakeCircBuff);
// Signal our forwarder events
//os::SignalSystemEvent(&btHidReportSystemEventUser);
os::SignalSystemEvent(&g_btHidReportSystemEventFwd);
}
void BluetoothHidReportEventThreadFunc(void *arg) {
/*
R_ABORT_UNLESS(hiddbgInitialize());
// Todo: move these to some class constuctor or something?
if (hos::GetVersion() >= hos::Version_7_0_0)
R_ABORT_UNLESS(hiddbgAttachHdlsWorkBuffer());
*/
while (true) {
// Wait for real bluetooth event
os::WaitSystemEvent(&g_btHidReportSystemEvent);
HandleEvent();
}
/*
if (hos::GetVersion() >= hos::Version_7_0_0)
R_ABORT_UNLESS(hiddbgReleaseHdlsWorkBuffer());
hiddbgExit();
*/
}
ams::Result InitializeEvents(void) {
R_TRY(os::CreateSystemEvent(&g_btHidReportSystemEventFwd, os::EventClearMode_AutoClear, true));
R_TRY(os::CreateSystemEvent(&g_btHidReportSystemEventUser, os::EventClearMode_AutoClear, true));
return ams::ResultSuccess();
}
ams::Result StartEventHandlerThread(void) {
R_TRY(os::CreateThread(&g_eventHandlerThread,
BluetoothHidReportEventThreadFunc,
nullptr,
g_eventHandlerThreadStack,
sizeof(g_eventHandlerThreadStack),
-10
//18 // priority of hid sysmodule
));
os::StartThread(&g_eventHandlerThread);
return ams::ResultSuccess();
}
}