#include "bridge.hpp" #include "io-device.hpp" #include "orbis/KernelAllocator.hpp" #include "orbis/file.hpp" #include "orbis/thread/Thread.hpp" #include "orbis/utils/Logs.hpp" #include "orbis/utils/SharedMutex.hpp" #include "vm.hpp" #include #include #include struct ComputeQueue { std::uint64_t ringBaseAddress{}; std::uint64_t readPtrAddress{}; std::uint64_t dingDongPtr{}; std::uint64_t offset{}; std::uint64_t len{}; }; struct GcDevice : public IoDevice { orbis::shared_mutex mtx; orbis::kmap computeQueues; orbis::ErrorCode open(orbis::Ref *file, const char *path, std::uint32_t flags, std::uint32_t mode, orbis::Thread *thread) override; }; struct GcFile : public orbis::File {}; static std::uint64_t g_submitDoneFlag; static orbis::ErrorCode gc_ioctl(orbis::File *file, std::uint64_t request, void *argp, orbis::Thread *thread) { // 0xc00c8110 // 0xc0848119 auto device = static_cast(file->device.get()); std::lock_guard lock(device->mtx); switch (request) { case 0xc008811b: // get submit done flag ptr? // TODO ORBIS_LOG_ERROR("gc ioctl 0xc008811b", *(std::uint64_t *)argp); *reinterpret_cast(argp) = &g_submitDoneFlag; break; case 0xc0108102: { // submit? struct Args { std::uint32_t arg0; std::uint32_t count; std::uint64_t *cmds; }; auto args = reinterpret_cast(argp); flockfile(stderr); ORBIS_LOG_ERROR("gc ioctl 0xc0108102", args->arg0, args->count, args->cmds); for (unsigned i = 0; i < args->count; ++i) { auto cmd = args->cmds + (i * 2); auto cmdId = cmd[0] & 0xffff'ffff; auto addressLoPart = cmd[0] >> 32; auto addressHiPart = cmd[1] & 0xff; auto address = addressLoPart | (addressHiPart << 32); auto unkPreservedVal = cmd[1] & 0xfff00000ffffff00; auto size = ((cmd[1] >> 32) & 0xfffff) << 2; // std::fprintf(stderr, " %lx\n", cmd[0]); // std::fprintf(stderr, " %lx\n", cmd[1]); // std::fprintf(stderr, " %u:\n", i); // std::fprintf(stderr, " cmdId = %lx\n", cmdId); // std::fprintf(stderr, " address = %lx\n", address); // std::fprintf(stderr, " unkPreservedVal = %lx\n", unkPreservedVal); // std::fprintf(stderr, " size = %lu\n", size); rx::bridge.sendCommandBuffer(cmdId, address, size); } funlockfile(stderr); break; } case 0xc0088101: { // switch buffer? struct Args { std::uint32_t arg0; std::uint32_t arg1; }; auto args = reinterpret_cast(argp); ORBIS_LOG_ERROR("gc ioctl 0xc0088101\n", args->arg0, args->arg1); break; } case 0xc020810c: { // submit and flip? struct Args { std::uint32_t arg0; std::uint32_t count; std::uint64_t *cmds; std::uint64_t arg3; // flipArg? std::uint32_t arg4; // bufferIndex? }; auto args = reinterpret_cast(argp); flockfile(stderr); ORBIS_LOG_ERROR("gc ioctl 0xc020810c", args->arg0, args->count, args->cmds, args->arg3, args->arg4); for (unsigned i = 0; i < args->count; ++i) { auto cmd = args->cmds + (i * 2); auto cmdId = cmd[0] & 0xffff'ffff; auto addressLoPart = cmd[0] >> 32; auto addressHiPart = cmd[1] & 0xff; auto address = addressLoPart | (addressHiPart << 32); auto unkPreservedVal = cmd[1] & 0xfff00000ffffff00; auto size = ((cmd[1] >> 32) & 0xfffff) << 2; // std::fprintf(stderr, " %lx\n", cmd[0]); // std::fprintf(stderr, " %lx\n", cmd[1]); // std::fprintf(stderr, " %u:\n", i); // std::fprintf(stderr, " cmdId = %lx\n", cmdId); // std::fprintf(stderr, " address = %lx\n", address); // std::fprintf(stderr, " unkPreservedVal = %lx\n", unkPreservedVal); // std::fprintf(stderr, " size = %lu\n", size); rx::bridge.sendCommandBuffer(cmdId, address, size); } funlockfile(stderr); // orbis::bridge.sendDoFlip(); break; } case 0xc0048116: { ORBIS_LOG_ERROR("gc ioctl 0xc0048116", *(std::uint32_t *)argp); thread->where(); break; } case 0xc00c8110: { // set gs ring sizes struct Args { std::uint32_t arg1; std::uint32_t arg2; std::uint32_t unk; // 0 }; auto args = reinterpret_cast(argp); ORBIS_LOG_ERROR("gc ioctl set gs ring sizes", args->arg1, args->arg2, args->unk); break; } case 0xc0848119: { // stats report control? struct Args { std::uint32_t unk; // 0x10001 std::uint32_t arg1; std::uint32_t arg2; std::uint32_t arg3; }; auto args = reinterpret_cast(argp); ORBIS_LOG_ERROR("gc ioctl stats report control", args->unk, args->arg1, args->arg2, args->arg3); break; } case 0xc010810b: { // something like stats masks? struct Args { std::uint64_t arg1; std::uint64_t arg2; }; auto args = reinterpret_cast(argp); ORBIS_LOG_ERROR("gc ioctl stats mask", args->arg1, args->arg2); break; } case 0xc030810d: { // map compute queue struct Args { std::uint32_t pipeHi; std::uint32_t pipeLo; std::uint32_t queueId; std::uint32_t offset; std::uint64_t ringBaseAddress; std::uint64_t readPtrAddress; std::uint64_t dingDongPtr; std::uint32_t lenLog2; }; auto args = reinterpret_cast(argp); ORBIS_LOG_ERROR("gc ioctl map compute queue", args->pipeHi, args->pipeLo, args->queueId, args->offset, args->ringBaseAddress, args->readPtrAddress, args->dingDongPtr, args->lenLog2); auto id = ((args->pipeHi * 4) + args->pipeLo) * 8 + args->queueId; device->computeQueues[id] = { .ringBaseAddress = args->ringBaseAddress, .readPtrAddress = args->readPtrAddress, .dingDongPtr = args->dingDongPtr, .len = static_cast(1) << args->lenLog2, }; args->pipeHi = 0x769c766; args->pipeLo = 0x72e8e3c1; args->queueId = -0x248d50d8; args->offset = 0xd245ed58; ((std::uint64_t *)args->dingDongPtr)[0xf0 / sizeof(std::uint64_t)] = 1; break; } case 0xc010811c: { // ding dong for workload struct Args { std::uint32_t pipeHi; std::uint32_t pipeLo; std::uint32_t queueId; std::uint32_t nextStartOffsetInDw; }; auto args = reinterpret_cast(argp); ORBIS_LOG_ERROR("gc ioctl ding dong for workload", args->pipeHi, args->pipeLo, args->queueId, args->nextStartOffsetInDw); auto id = ((args->pipeHi * 4) + args->pipeLo) * 8 + args->queueId; auto queue = device->computeQueues.at(id); auto address = (queue.ringBaseAddress + queue.offset); auto endOffset = static_cast(args->nextStartOffsetInDw) << 2; auto size = endOffset - queue.offset; rx::bridge.sendCommandBuffer(id, address, size); queue.offset = endOffset; break; } case 0xc0048114: { // SetWaveLimitMultipliers ORBIS_LOG_WARNING("Unknown gc ioctl", request, (unsigned long)*(std::uint32_t *)argp); thread->where(); break; } case 0xc004811f: { ORBIS_LOG_WARNING("Unknown gc ioctl", request, (unsigned long)*(std::uint32_t *)argp); break; } case 0x802450c9: { // used during Net initialization std::fprintf(stderr, "***WARNING*** Unknown gc ioctl_%lx(0x%lx)\n", request, (unsigned long)*(std::uint32_t *)argp); break; } default: ORBIS_LOG_FATAL("Unhandled gc ioctl", request); std::fflush(stdout); __builtin_trap(); break; } return {}; } static orbis::ErrorCode gc_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("gc 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 = gc_ioctl, .mmap = gc_mmap, }; orbis::ErrorCode GcDevice::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 *createGcCharacterDevice() { return orbis::knew(); }