// Copyright 2008 Dolphin Emulator Project // SPDX-License-Identifier: GPL-2.0-or-later #include "VideoCommon/CPMemory.h" #include #include "Common/ChunkFile.h" #include "Common/Logging/Log.h" #include "Core/DolphinAnalytics.h" #include "VideoCommon/CommandProcessor.h" #include "VideoCommon/VertexLoaderManager.h" // CP state CPState g_main_cp_state; CPState g_preprocess_cp_state; void CopyPreprocessCPStateFromMain() { #ifdef __GNUC__ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wclass-memaccess" #endif std::memcpy(&g_preprocess_cp_state, &g_main_cp_state, sizeof(CPState)); #ifdef __GNUC__ #pragma GCC diagnostic pop #endif } std::pair GetCPRegInfo(u8 cmd, u32 value) { switch (cmd & CP_COMMAND_MASK) { case MATINDEX_A: return std::make_pair("MATINDEX_A", fmt::to_string(TMatrixIndexA{.Hex = value})); case MATINDEX_B: return std::make_pair("MATINDEX_B", fmt::to_string(TMatrixIndexB{.Hex = value})); case VCD_LO: return std::make_pair("VCD_LO", fmt::to_string(TVtxDesc::Low{.Hex = value})); case VCD_HI: return std::make_pair("VCD_HI", fmt::to_string(TVtxDesc::High{.Hex = value})); case CP_VAT_REG_A: if (cmd - CP_VAT_REG_A >= CP_NUM_VAT_REG) return std::make_pair("CP_VAT_REG_A invalid", ""); return std::make_pair(fmt::format("CP_VAT_REG_A - Format {}", cmd & CP_VAT_MASK), fmt::to_string(UVAT_group0{.Hex = value})); case CP_VAT_REG_B: if (cmd - CP_VAT_REG_B >= CP_NUM_VAT_REG) return std::make_pair("CP_VAT_REG_B invalid", ""); return std::make_pair(fmt::format("CP_VAT_REG_B - Format {}", cmd & CP_VAT_MASK), fmt::to_string(UVAT_group1{.Hex = value})); case CP_VAT_REG_C: if (cmd - CP_VAT_REG_C >= CP_NUM_VAT_REG) return std::make_pair("CP_VAT_REG_C invalid", ""); return std::make_pair(fmt::format("CP_VAT_REG_C - Format {}", cmd & CP_VAT_MASK), fmt::to_string(UVAT_group2{.Hex = value})); case ARRAY_BASE: return std::make_pair( fmt::format("ARRAY_BASE Array {}", static_cast(cmd & CP_ARRAY_MASK)), fmt::format("Base address {:08x}", value)); case ARRAY_STRIDE: return std::make_pair( fmt::format("ARRAY_STRIDE Array {}", static_cast(cmd & CP_ARRAY_MASK)), fmt::format("Stride {:02x}", value & 0xff)); default: return std::make_pair(fmt::format("Invalid CP register {:02x} = {:08x}", cmd, value), ""); } } CPState::CPState(const u32* memory) : CPState() { matrix_index_a.Hex = memory[MATINDEX_A]; matrix_index_b.Hex = memory[MATINDEX_B]; vtx_desc.low.Hex = memory[VCD_LO]; vtx_desc.high.Hex = memory[VCD_HI]; for (u32 i = 0; i < CP_NUM_VAT_REG; i++) { vtx_attr[i].g0.Hex = memory[CP_VAT_REG_A + i]; vtx_attr[i].g1.Hex = memory[CP_VAT_REG_B + i]; vtx_attr[i].g2.Hex = memory[CP_VAT_REG_C + i]; } for (u32 i = 0; i < CP_NUM_ARRAYS; i++) { array_bases[static_cast(i)] = memory[ARRAY_BASE + i]; array_strides[static_cast(i)] = memory[ARRAY_STRIDE + i]; } } void CPState::LoadCPReg(u8 sub_cmd, u32 value) { switch (sub_cmd & CP_COMMAND_MASK) { case UNKNOWN_00: case UNKNOWN_10: case UNKNOWN_20: if (!(sub_cmd == UNKNOWN_20 && value == 0)) { // All titles using libogc or the official SDK issue 0x20 with value=0 on startup DolphinAnalytics::Instance().ReportGameQuirk(GameQuirk::USES_CP_PERF_COMMAND); DEBUG_LOG_FMT(VIDEO, "Unknown CP command possibly relating to perf queries used: {:02x}", sub_cmd); } break; case MATINDEX_A: if (sub_cmd != MATINDEX_A) { DolphinAnalytics::Instance().ReportGameQuirk(GameQuirk::USES_MAYBE_INVALID_CP_COMMAND); WARN_LOG_FMT(VIDEO, "CP MATINDEX_A: an exact value of {:02x} was expected " "but instead a value of {:02x} was seen", static_cast(MATINDEX_A), sub_cmd); } matrix_index_a.Hex = value; break; case MATINDEX_B: if (sub_cmd != MATINDEX_B) { DolphinAnalytics::Instance().ReportGameQuirk(GameQuirk::USES_MAYBE_INVALID_CP_COMMAND); WARN_LOG_FMT(VIDEO, "CP MATINDEX_B: an exact value of {:02x} was expected " "but instead a value of {:02x} was seen", static_cast(MATINDEX_B), sub_cmd); } matrix_index_b.Hex = value; break; case VCD_LO: if (sub_cmd != VCD_LO) // Stricter than YAGCD { DolphinAnalytics::Instance().ReportGameQuirk(GameQuirk::USES_MAYBE_INVALID_CP_COMMAND); WARN_LOG_FMT(VIDEO, "CP VCD_LO: an exact value of {:02x} was expected " "but instead a value of {:02x} was seen", static_cast(VCD_LO), sub_cmd); } vtx_desc.low.Hex = value; break; case VCD_HI: if (sub_cmd != VCD_HI) // Stricter than YAGCD { DolphinAnalytics::Instance().ReportGameQuirk(GameQuirk::USES_MAYBE_INVALID_CP_COMMAND); WARN_LOG_FMT(VIDEO, "CP VCD_HI: an exact value of {:02x} was expected " "but instead a value of {:02x} was seen", static_cast(VCD_HI), sub_cmd); } vtx_desc.high.Hex = value; break; case CP_VAT_REG_A: if ((sub_cmd - CP_VAT_REG_A) >= CP_NUM_VAT_REG) { DolphinAnalytics::Instance().ReportGameQuirk(GameQuirk::USES_MAYBE_INVALID_CP_COMMAND); WARN_LOG_FMT(VIDEO, "CP_VAT_REG_A: Invalid VAT {}", sub_cmd - CP_VAT_REG_A); } vtx_attr[sub_cmd & CP_VAT_MASK].g0.Hex = value; break; case CP_VAT_REG_B: if ((sub_cmd - CP_VAT_REG_B) >= CP_NUM_VAT_REG) { DolphinAnalytics::Instance().ReportGameQuirk(GameQuirk::USES_MAYBE_INVALID_CP_COMMAND); WARN_LOG_FMT(VIDEO, "CP_VAT_REG_B: Invalid VAT {}", sub_cmd - CP_VAT_REG_B); } vtx_attr[sub_cmd & CP_VAT_MASK].g1.Hex = value; break; case CP_VAT_REG_C: if ((sub_cmd - CP_VAT_REG_C) >= CP_NUM_VAT_REG) { DolphinAnalytics::Instance().ReportGameQuirk(GameQuirk::USES_MAYBE_INVALID_CP_COMMAND); WARN_LOG_FMT(VIDEO, "CP_VAT_REG_C: Invalid VAT {}", sub_cmd - CP_VAT_REG_C); } vtx_attr[sub_cmd & CP_VAT_MASK].g2.Hex = value; break; // Pointers to vertex arrays in GC RAM case ARRAY_BASE: array_bases[static_cast(sub_cmd & CP_ARRAY_MASK)] = value & CommandProcessor::GetPhysicalAddressMask(); break; case ARRAY_STRIDE: array_strides[static_cast(sub_cmd & CP_ARRAY_MASK)] = value & 0xFF; break; default: DolphinAnalytics::Instance().ReportGameQuirk(GameQuirk::USES_UNKNOWN_CP_COMMAND); WARN_LOG_FMT(VIDEO, "Unknown CP register {:02x} set to {:08x}", sub_cmd, value); } } void CPState::FillCPMemoryArray(u32* memory) const { memory[MATINDEX_A] = matrix_index_a.Hex; memory[MATINDEX_B] = matrix_index_b.Hex; memory[VCD_LO] = vtx_desc.low.Hex; memory[VCD_HI] = vtx_desc.high.Hex; for (int i = 0; i < CP_NUM_VAT_REG; ++i) { memory[CP_VAT_REG_A + i] = vtx_attr[i].g0.Hex; memory[CP_VAT_REG_B + i] = vtx_attr[i].g1.Hex; memory[CP_VAT_REG_C + i] = vtx_attr[i].g2.Hex; } for (int i = 0; i < CP_NUM_ARRAYS; ++i) { memory[ARRAY_BASE + i] = array_bases[static_cast(i)]; memory[ARRAY_STRIDE + i] = array_strides[static_cast(i)]; } }