// SPDX-FileCopyrightText: 2002-2026 PCSX2 Dev Team // SPDX-License-Identifier: GPL-3.0+ #include "Common.h" #include "Gif.h" #include "Gif_Unit.h" #include "MTGS.h" #include "Vif.h" #include "Vif_Dma.h" ////////////////////////////////////////////////////////////////////////// /////////////////////////// Quick & dirty FIFO :D //////////////////////// ////////////////////////////////////////////////////////////////////////// // Notes on FIFO implementation // // The FIFO consists of four separate pages of HW register memory, each mapped to a // PS2 device. They are listed as follows: // // 0x4000 - 0x5000 : VIF0 (all registers map to 0x4000) // 0x5000 - 0x6000 : VIF1 (all registers map to 0x5000) // 0x6000 - 0x7000 : GS (all registers map to 0x6000) // 0x7000 - 0x8000 : IPU (registers map to 0x7000 and 0x7010, respectively) void ReadFIFO_VIF1(mem128_t* out) { if (vif1Regs.stat.test(VIF1_STAT_INT | VIF1_STAT_VSS | VIF1_STAT_VIS | VIF1_STAT_VFS)) DevCon.Warning("Reading from vif1 fifo when stalled"); ZeroQWC(out); // Clear first in case no data gets written... pxAssertRel(vif1Regs.stat.FQC != 0, "FQC = 0 on VIF FIFO READ!"); if (vif1Regs.stat.FDR) { if (vif1Regs.stat.FQC > vif1.GSLastDownloadSize) { DevCon.Warning("Warning! GS Download size < FIFO count!"); } if (vif1Regs.stat.FQC > 0) { MTGS::InitAndReadFIFO(reinterpret_cast(out), 1); vif1.GSLastDownloadSize--; GUNIT_LOG("ReadFIFO_VIF1"); if (vif1.GSLastDownloadSize <= 16) gifRegs.stat.OPH = false; vif1Regs.stat.FQC = std::min((u32)16, vif1.GSLastDownloadSize); } } VIF_LOG("ReadFIFO/VIF1 -> 0x%08X.%08X.%08X.%08X", out->_u32[0], out->_u32[1], out->_u32[2], out->_u32[3]); } ////////////////////////////////////////////////////////////////////////// // WriteFIFO Pages // void WriteFIFO_VIF0(const mem128_t* value) { VIF_LOG("WriteFIFO/VIF0 <- 0x%08X.%08X.%08X.%08X", value->_u32[0], value->_u32[1], value->_u32[2], value->_u32[3]); vif0ch.qwc += 1; if (vif0.irqoffset.value != 0 && vif0.vifstalled.enabled) DevCon.Warning("Offset on VIF0 FIFO start!"); [[maybe_unused]] bool ret = VIF0transfer((u32*)value, 4); if (vif0.cmd) { if (vif0.done && vif0ch.qwc == 0) vif0Regs.stat.VPS = VPS_WAITING; } else { vif0Regs.stat.VPS = VPS_IDLE; } pxAssertMsg(ret, "vif stall code not implemented"); } void WriteFIFO_VIF1(const mem128_t* value) { VIF_LOG("WriteFIFO/VIF1 <- 0x%08X.%08X.%08X.%08X", value->_u32[0], value->_u32[1], value->_u32[2], value->_u32[3]); if (vif1Regs.stat.FDR) { DevCon.Warning("writing to fifo when fdr is set!"); } if (vif1Regs.stat.test(VIF1_STAT_INT | VIF1_STAT_VSS | VIF1_STAT_VIS | VIF1_STAT_VFS)) { DevCon.Warning("writing to vif1 fifo when stalled"); } if (vif1.irqoffset.value != 0 && vif1.vifstalled.enabled) { DevCon.Warning("Offset on VIF1 FIFO start!"); } [[maybe_unused]] bool ret = VIF1transfer((u32*)value, 4); if (vif1.cmd) { if (vif1.done && !vif1ch.qwc) vif1Regs.stat.VPS = VPS_WAITING; } else vif1Regs.stat.VPS = VPS_IDLE; if (gifRegs.stat.APATH == 2 && gifUnit.gifPath[1].isDone()) { gifRegs.stat.APATH = 0; gifRegs.stat.OPH = 0; vif1Regs.stat.VGW = false; //Let vif continue if it's stuck on a flush if (gifUnit.checkPaths(1, 0, 1)) gifUnit.Execute(false, true); } pxAssertMsg(ret, "vif stall code not implemented"); } void WriteFIFO_GIF(const mem128_t* value) { GUNIT_LOG("WriteFIFO_GIF()"); if ((!gifUnit.CanDoPath3() || gif_fifo.fifoSize > 0)) { //DevCon.Warning("GIF FIFO HW Write"); gif_fifo.write_fifo((u32*)value, 1); gif_fifo.read_fifo(); } else { gifUnit.TransferGSPacketData(GIF_TRANS_FIFO, (u8*)value, 16); } if (gifUnit.gifPath[GIF_PATH_3].state == GIF_PATH_WAIT) gifUnit.gifPath[GIF_PATH_3].state = GIF_PATH_IDLE; if (gifRegs.stat.APATH == 3) { gifRegs.stat.APATH = 0; gifRegs.stat.OPH = 0; if (gifUnit.gifPath[GIF_PATH_3].state == GIF_PATH_IDLE || gifUnit.gifPath[GIF_PATH_3].state == GIF_PATH_WAIT) { if (gifUnit.checkPaths(1, 1, 0)) gifUnit.Execute(false, true); } } }