#include "bridge.hpp" #include "io-device.hpp" #include "orbis/KernelAllocator.hpp" #include "orbis/error/ErrorCode.hpp" #include "orbis/file.hpp" #include "orbis/utils/Logs.hpp" #include "orbis/utils/SharedMutex.hpp" #include "vm.hpp" #include #include #include struct VideoOutBuffer { std::uint32_t pixelFormat; std::uint32_t tilingMode; std::uint32_t pitch; std::uint32_t width; std::uint32_t height; }; struct RegisterBuffer { std::uint64_t canary; //arg5 data in FlipControlArgs:0: *arg5 std::uint32_t index; //buffer index std::uint32_t vid; //video output port id ? std::uint64_t address; //left buffer ptr std::uint64_t address2; //right buffer ptr (Stereo) }; struct RegisterBufferAttributeArgs { std::uint64_t canary; //arg5 data in FlipControlArgs:0: *arg5 std::uint8_t vid; //video output port id ? std::uint8_t submit; //0 = RegisterBuffers ; 1 = SubmitChangeBufferAttribute std::uint16_t unk3; //0 std::uint32_t pixelFormat; std::uint32_t tilingMode; // 1 // tilingMode? std::uint32_t pitch; std::uint32_t width; std::uint32_t height; std::uint8_t unk4_zero; // 0 std::uint8_t unk5_zero; // 0 std::uint16_t options; std::uint64_t reserved1; // -1 std::uint32_t reserved2; }; struct FlipRequestArgs { //submit_flip std::uint64_t canary; //arg5 data in FlipControlArgs:0: *arg5 std::uint64_t displayBufferIndex; std::uint32_t flipMode; // flip mode? std::uint32_t unk1; std::uint64_t flipArg; std::uint64_t flipArg2; //not used std::uint32_t eop_nz; std::uint32_t unk2; std::uint32_t eop_val; std::uint32_t unk3; std::uint64_t unk4; std::uint64_t* rout; //extraout of result error }; struct FlipControlStatus { std::uint64_t flipArg; std::uint64_t flipArg2; //not used std::uint64_t count; std::uint64_t processTime; std::uint64_t tsc; std::uint32_t currentBuffer; std::uint32_t flipPendingNum0; //flipPendingNum = flipPendingNum0 + gcQueueNum + flipPendingNum1 std::uint32_t gcQueueNum; std::uint32_t flipPendingNum1; std::uint32_t submitTsc; std::uint64_t unk1; }; struct FlipControlArgs { std::uint32_t id; // std::uint32_t padding; std::uint64_t arg2; void *ptr; std::uint64_t size; // 0x48 // size? std::uint64_t arg5; std::uint64_t arg6; }; struct ResolutionStatus { std::uint32_t width; std::uint32_t heigth; std::uint32_t paneWidth; std::uint32_t paneHeight; std::uint32_t refreshHz; std::uint32_t screenSizeInInch; std::byte padding[20]; }; //refreshRate = 0 REFRESH_RATE_UNKNOWN //refreshRate = 3; result.refreshHz = 0x426fc28f REFRESH_RATE_59_94HZ //refreshRate = 2, result.refreshHz = 0x42480000 REFRESH_RATE_50HZ //refreshRate = 1, result.refreshHz = 0x41bfd70a REFRESH_RATE_23_98HZ //refreshRate = 4, result.refreshHz = 0x41c00000 //refreshRate = 5, result.refreshHz = 0x41f00000 //refreshRate = 6, result.refreshHz = 0x41efc28f REFRESH_RATE_29_97HZ //refreshRate = 7, result.refreshHz = 0x41c80000 //refreshRate = 9, result.refreshHz = 0x42700000 //refreshRate = 10, result.refreshHz = 0x42400000 //refreshRate = 0xb, result.refreshHz = 0x423fcccd //refreshRate = 0xc, result.refreshHz = 0x42c80000 //refreshRate = 0xd, result.refreshHz = 0x42efc28f REFRESH_RATE_119_88HZ //refreshRate = 0xe, result.refreshHz = 0x42f00000 //refreshRate = 0xf, result.refreshHz = 0x43480000 //refreshRate = 0x10, result.refreshHz = 0x436fc28f //refreshRate = 0x11, result.refreshHz = 0x43700000 //refreshRate = 0x14, result.refreshHz = 0x413fd70a //refreshRate = 0x15, result.refreshHz = 0x41400000 //refreshRate = 0x16, result.refreshHz = 0x416fd70a //refreshRate = 0x17, result.refreshHz = 0x41700000 //refreshRate = 0x23, result.refreshHz = 0x42b3d1ec REFRESH_RATE_89_91HZ struct DceFile : public orbis::File {}; struct DceDevice : IoDevice { orbis::shared_mutex mtx; VideoOutBuffer bufferAttributes{}; // TODO orbis::ErrorCode open(orbis::Ref *file, const char *path, std::uint32_t flags, std::uint32_t mode, orbis::Thread *thread) override; }; static orbis::ErrorCode dce_ioctl(orbis::File *file, std::uint64_t request, void *argp, orbis::Thread *thread) { auto device = static_cast(file->device.get()); std::lock_guard lock(device->mtx); if (request == 0xc0308203) { // returns: // PERM // NOMEM // FAULT // BUSY // INVAL // OPNOTSUPP // flip control // 0xc - scaler ctl // 0x11 - output ctl // 0x12 - vblank ctl // 0x14 - display ctl // 0x15 - subwindow ctl // 0x18 - cursor ctl // 0x19 - port ctl // 0x1d - color ctl // 0x1f - config ctl // 0x20 - zoom buffer ctl // 0x21 - adjust color auto args = reinterpret_cast(argp); // ORBIS_LOG_NOTICE("dce: FlipControl", args->id, args->arg2, args->ptr, // args->size); if (args->id == 6) { // set flip rate? ORBIS_LOG_NOTICE("dce: FlipControl: set flip rate", args->arg2, args->ptr, args->size); } else if (args->id == 10) { if (args->size != sizeof(FlipControlStatus)) { return {}; } FlipControlStatus flipStatus{}; // TODO: lock bridge header flipStatus.flipArg = rx::bridge.header->flipArg; flipStatus.count = rx::bridge.header->flipCount; flipStatus.processTime = 0; // TODO flipStatus.tsc = 0; // TODO flipStatus.currentBuffer = rx::bridge.header->flipBuffer; flipStatus.flipPendingNum0 = 0; // TODO flipStatus.gcQueueNum = 0; // TODO flipStatus.flipPendingNum1 = 0; // TODO flipStatus.submitTsc = 0; // TODO std::memcpy(args->ptr, &flipStatus, sizeof(FlipControlStatus)); } else if (args->id == 12) { *(std::uint64_t *)args->ptr = 0; } else if (args->id == 19) { // get resolution status auto status = (ResolutionStatus *)args->ptr; status->width = 1920; status->heigth = 1080; status->paneWidth = 1920; status->paneHeight = 1080; } else if (args->id == 9) { ORBIS_LOG_NOTICE("dce: FlipControl allocate", args->id, args->arg2, args->ptr, args->size); *(std::uint64_t *)args->ptr = 0; // dev offset *(std::uint64_t *)args->size = 0x100000; // size } else if (args->id == 31) { rx::bridge.header->bufferInUseAddress = args->size; return {}; } else if (args->id == 33) { // adjust color std::printf("adjust color\n"); return {}; } else if (args->id == 0x1e) { // TODO return{}; } else if (args->id != 0 && args->id != 1) { // used during open/close ORBIS_LOG_NOTICE("dce: UNIMPLEMENTED FlipControl", args->id, args->arg2, args->ptr, args->size); std::fflush(stdout); //__builtin_trap(); } return {}; } if (request == 0xc0308206) { auto args = reinterpret_cast(argp); ORBIS_LOG_ERROR("dce: RegisterBuffer", args->canary, args->index, args->address, args->address2); if (args->index >= std::size(rx::bridge.header->buffers)) { // TODO ORBIS_LOG_FATAL("dce: out of buffers!", args->index); return orbis::ErrorCode::NOMEM; } // TODO: lock bridge header rx::bridge.header->buffers[args->index] = { .width = device->bufferAttributes.width, .height = device->bufferAttributes.height, .pitch = device->bufferAttributes.pitch, .address = args->address, .pixelFormat = device->bufferAttributes.pixelFormat, .tilingMode = device->bufferAttributes.tilingMode}; return {}; } if (request == 0xc0308207) { // SCE_SYS_DCE_IOCTL_REGISTER_BUFFER_ATTRIBUTE auto args = reinterpret_cast(argp); ORBIS_LOG_ERROR("dce: RegisterBufferAttributes", args->canary, args->vid, args->submit, args->unk3, args->pixelFormat, args->tilingMode, args->pitch, args->width, args->height, args->unk4_zero, args->unk5_zero, args->options, args->reserved1, args->reserved2); device->bufferAttributes.pixelFormat = args->pixelFormat; device->bufferAttributes.tilingMode = args->tilingMode; device->bufferAttributes.pitch = args->pitch; device->bufferAttributes.width = args->width; device->bufferAttributes.height = args->height; return {}; } if (request == 0xc0488204) { // flip request auto args = reinterpret_cast(argp); // ORBIS_LOG_ERROR("dce: FlipRequestArgs", args->arg1, // args->displayBufferIndex, args->flipMode, args->flipArg, // args->arg5, args->arg6, args->arg7, args->arg8); rx::bridge.sendFlip(args->displayBufferIndex, /*args->flipMode,*/ args->flipArg); return {}; } if (request == 0x80088209) { // deallocate? auto arg = *reinterpret_cast(argp); ORBIS_LOG_ERROR("dce: 0x80088209", arg); return {}; } ORBIS_LOG_FATAL("Unhandled dce ioctl", request); // 0xc0188213 - color conversion std::fflush(stdout); __builtin_trap(); return {}; } static orbis::ErrorCode dce_mmap(orbis::File *file, void **address, std::uint64_t size, std::int32_t prot, std::int32_t flags, std::int64_t offset, orbis::Thread *thread) { ORBIS_LOG_FATAL("dce mmap", address, size, offset); auto result = rx::vm::map(*address, size, prot, flags); if (result == (void *)-1) { return orbis::ErrorCode::INVAL; // TODO } *address = result; return {}; } static const orbis::FileOps ops = { .ioctl = dce_ioctl, .mmap = dce_mmap, }; orbis::ErrorCode DceDevice::open(orbis::Ref *file, const char *path, std::uint32_t flags, std::uint32_t mode, orbis::Thread *thread) { auto newFile = orbis::knew(); newFile->device = this; newFile->ops = &ops; *file = newFile; return {}; } IoDevice *createDceCharacterDevice() { return orbis::knew(); }