/* * Copyright (c) 2006 The Regents of The University of Michigan * Copyright (c) 2007 MIPS Technologies, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer; * redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution; * neither the name of the copyright holders nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * Authors: Korey Sewell * Jaidev Patwardhan */ #include "base/bitfield.hh" #include "arch/mips/misc_regfile.hh" #include "arch/mips/mt_constants.hh" #include "arch/mips/pra_constants.hh" #include "cpu/thread_context.hh" #include "cpu/base.hh" #include "cpu/exetrace.hh" //#include "params/DerivO3CPU.hh" using namespace std; using namespace MipsISA; std::string MiscRegFile::miscRegNames[NumMiscRegs] = { "Index", "MVPControl", "MVPConf0", "MVPConf1", "", "", "", "", "Random", "VPEControl", "VPEConf0", "VPEConf1", "YQMask", "VPESchedule", "VPEScheFBack", "VPEOpt", "EntryLo0", "TCStatus", "TCBind", "TCRestart", "TCHalt", "TCContext", "TCSchedule", "TCScheFBack", "EntryLo1", "", "", "", "", "", "", "", "Context", "ContextConfig", "", "", "", "", "", "", "PageMask", "PageGrain", "", "", "", "", "", "", "Wired", "SRSConf0", "SRCConf1", "SRSConf2", "SRSConf3", "SRSConf4", "", "", "HWREna", "", "", "", "", "", "", "", "BadVAddr", "", "", "", "", "", "", "", "Count", "", "", "", "", "", "", "", "EntryHi", "", "", "", "", "", "", "", "Compare", "", "", "", "", "", "", "", "Status", "IntCtl", "SRSCtl", "SRSMap", "", "", "", "", "Cause", "", "", "", "", "", "", "", "EPC", "", "", "", "", "", "", "", "PRId", "EBase", "", "", "", "", "", "", "Config", "Config1", "Config2", "Config3", "", "", "", "", "LLAddr", "", "", "", "", "", "", "", "WatchLo0", "WatchLo1", "WatchLo2", "WatchLo3", "WatchLo4", "WatchLo5", "WatchLo6", "WatchLo7", "WatchHi0", "WatchHi1", "WatchHi2", "WatchHi3", "WatchHi4", "WatchHi5", "WatchHi6", "WatchHi7", "XCContext64", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "Debug", "TraceControl1", "TraceControl2", "UserTraceData", "TraceBPC", "", "", "", "DEPC", "", "", "", "", "", "", "", "PerfCnt0", "PerfCnt1", "PerfCnt2", "PerfCnt3", "PerfCnt4", "PerfCnt5", "PerfCnt6", "PerfCnt7", "ErrCtl", "", "", "", "", "", "", "", "CacheErr0", "CacheErr1", "CacheErr2", "CacheErr3", "", "", "", "", "TagLo0", "DataLo1", "TagLo2", "DataLo3", "TagLo4", "DataLo5", "TagLo6", "DataLo7", "TagHi0", "DataHi1", "TagHi2", "DataHi3", "TagHi4", "DataHi5", "TagHi6", "DataHi7", "ErrorEPC", "", "", "", "", "", "", "", "DESAVE", "", "", "", "", "", "", "", "LLFlag" }; MiscRegFile::MiscRegFile() { init(); } MiscRegFile::MiscRegFile(BaseCPU *_cpu) { cpu = _cpu; init(); } void MiscRegFile::init() { miscRegFile.resize(NumMiscRegs); bankType.resize(NumMiscRegs); for (int i=0; i < NumMiscRegs; i++) { miscRegFile[i].resize(1); bankType[i] = perProcessor; } miscRegFile_WriteMask.resize(NumMiscRegs); for (int i=0; i < NumMiscRegs; i++) { miscRegFile_WriteMask[i].push_back(0); } clear(0); } void MiscRegFile::clear(unsigned tid_or_vpn) { for(int i = 0; i < NumMiscRegs; i++) { miscRegFile[i][tid_or_vpn] = 0; miscRegFile_WriteMask[i][tid_or_vpn] = (long unsigned int)(-1); } } void MiscRegFile::expandForMultithreading(ThreadID num_threads, unsigned num_vpes) { // Initialize all Per-VPE regs uint32_t per_vpe_regs[] = { VPEControl, VPEConf0, VPEConf1, YQMask, VPESchedule, VPEScheFBack, VPEOpt, SRSConf0, SRSConf1, SRSConf2, SRSConf3, SRSConf4, EBase }; uint32_t num_vpe_regs = sizeof(per_vpe_regs) / 4; for (int i = 0; i < num_vpe_regs; i++) { if (num_vpes > 1) { miscRegFile[per_vpe_regs[i]].resize(num_vpes); } bankType[per_vpe_regs[i]] = perVirtProcessor; } // Initialize all Per-TC regs uint32_t per_tc_regs[] = { Status, TCStatus, TCBind, TCRestart, TCHalt, TCContext, TCSchedule, TCScheFBack, Debug, LLAddr }; uint32_t num_tc_regs = sizeof(per_tc_regs) / 4; for (int i = 0; i < num_tc_regs; i++) { miscRegFile[per_tc_regs[i]].resize(num_threads); bankType[per_tc_regs[i]] = perThreadContext; } if (num_vpes > 1) { for (int i=1; i < num_vpes; i++) { clear(i); } } } //@TODO: Use MIPS STYLE CONSTANTS (e.g. TCHALT_H instead of TCH_H) void MiscRegFile::reset(std::string core_name, ThreadID num_threads, unsigned num_vpes, BaseCPU *_cpu) { DPRINTF(MipsPRA, "Resetting CP0 State with %i TCs and %i VPEs\n", num_threads, num_vpes); cpu = _cpu; MipsISA::CoreSpecific &cp = cpu->coreParams; // Do Default CP0 initialization HERE // Do Initialization for MT cores here (eventually use // core_name parameter to toggle this initialization) // =================================================== DPRINTF(MipsPRA, "Initializing CP0 State.... "); MiscReg ProcID = readRegNoEffect(PRId); replaceBits(ProcID,PRIdCoOp_HI,PRIdCoOp_LO,cp.CP0_PRId_CompanyOptions); replaceBits(ProcID,PRIdCoID_HI,PRIdCoID_LO,cp.CP0_PRId_CompanyID); replaceBits(ProcID,PRIdProc_ID_HI,PRIdProc_ID_LO,cp.CP0_PRId_ProcessorID); replaceBits(ProcID,PRIdRev_HI,PRIdRev_LO,cp.CP0_PRId_Revision); setRegNoEffect(PRId,ProcID); // Now, create Write Mask for ProcID register MiscReg ProcID_Mask = 0; // Read-Only register replaceBits(ProcID_Mask,0,32,0); setRegMask(PRId,ProcID_Mask); // Config MiscReg cfg = readRegNoEffect(Config); replaceBits(cfg, Config_BE_HI, Config_BE_LO, cp.CP0_Config_BE); replaceBits(cfg, Config_AT_HI, Config_AT_LO, cp.CP0_Config_AT); replaceBits(cfg, Config_AR_HI, Config_AR_LO, cp.CP0_Config_AR); replaceBits(cfg, Config_MT_HI, Config_MT_LO, cp.CP0_Config_MT); replaceBits(cfg, Config_VI_HI, Config_VI_LO, cp.CP0_Config_VI); replaceBits(cfg, Config_M, 1); setRegNoEffect(Config, cfg); // Now, create Write Mask for Config register MiscReg cfg_Mask = 0x7FFF0007; replaceBits(cfg_Mask,0,32,0); setRegMask(Config,cfg_Mask); // Config1 MiscReg cfg1 = readRegNoEffect(Config1); replaceBits(cfg1, Config1_MMUSize_HI, Config1_MMUSize_LO, cp.CP0_Config1_MMU); replaceBits(cfg1, Config1_IS_HI, Config1_IS_LO, cp.CP0_Config1_IS); replaceBits(cfg1, Config1_IL_HI, Config1_IL_LO, cp.CP0_Config1_IL); replaceBits(cfg1, Config1_IA_HI, Config1_IA_LO, cp.CP0_Config1_IA); replaceBits(cfg1, Config1_DS_HI, Config1_DS_LO, cp.CP0_Config1_DS); replaceBits(cfg1, Config1_DL_HI, Config1_DL_LO, cp.CP0_Config1_DL); replaceBits(cfg1, Config1_DA_HI, Config1_DA_LO, cp.CP0_Config1_DA); replaceBits(cfg1, Config1_FP_HI, Config1_FP_LO, cp.CP0_Config1_FP); replaceBits(cfg1, Config1_EP_HI, Config1_EP_LO, cp.CP0_Config1_EP); replaceBits(cfg1, Config1_WR_HI, Config1_WR_LO, cp.CP0_Config1_WR); replaceBits(cfg1, Config1_MD_HI, Config1_MD_LO, cp.CP0_Config1_MD); replaceBits(cfg1, Config1_C2_HI, Config1_C2_LO, cp.CP0_Config1_C2); replaceBits(cfg1, Config1_PC_HI, Config1_PC_LO, cp.CP0_Config1_PC); replaceBits(cfg1, Config1_M, cp.CP0_Config1_M); setRegNoEffect(Config1, cfg1); // Now, create Write Mask for Config register MiscReg cfg1_Mask = 0; // Read Only Register replaceBits(cfg1_Mask,0,32,0); setRegMask(Config1,cfg1_Mask); // Config2 MiscReg cfg2 = readRegNoEffect(Config2); replaceBits(cfg2, Config2_TU_HI, Config2_TU_LO, cp.CP0_Config2_TU); replaceBits(cfg2, Config2_TS_HI, Config2_TS_LO, cp.CP0_Config2_TS); replaceBits(cfg2, Config2_TL_HI, Config2_TL_LO, cp.CP0_Config2_TL); replaceBits(cfg2, Config2_TA_HI, Config2_TA_LO, cp.CP0_Config2_TA); replaceBits(cfg2, Config2_SU_HI, Config2_SU_LO, cp.CP0_Config2_SU); replaceBits(cfg2, Config2_SS_HI, Config2_SS_LO, cp.CP0_Config2_SS); replaceBits(cfg2, Config2_SL_HI, Config2_SL_LO, cp.CP0_Config2_SL); replaceBits(cfg2, Config2_SA_HI, Config2_SA_LO, cp.CP0_Config2_SA); replaceBits(cfg2, Config2_M, cp.CP0_Config2_M); setRegNoEffect(Config2, cfg2); // Now, create Write Mask for Config register MiscReg cfg2_Mask = 0x7000F000; // Read Only Register replaceBits(cfg2_Mask,0,32,0); setRegMask(Config2,cfg2_Mask); // Config3 MiscReg cfg3 = readRegNoEffect(Config3); replaceBits(cfg3, Config3_DSPP_HI, Config3_DSPP_LO, cp.CP0_Config3_DSPP); replaceBits(cfg3, Config3_LPA_HI, Config3_LPA_LO, cp.CP0_Config3_LPA); replaceBits(cfg3, Config3_VEIC_HI, Config3_VEIC_LO, cp.CP0_Config3_VEIC); replaceBits(cfg3, Config3_VINT_HI, Config3_VINT_LO, cp.CP0_Config3_VInt); replaceBits(cfg3, Config3_SP_HI, Config3_SP_LO, cp.CP0_Config3_SP); replaceBits(cfg3, Config3_MT_HI, Config3_MT_LO, cp.CP0_Config3_MT); replaceBits(cfg3, Config3_SM_HI, Config3_SM_LO, cp.CP0_Config3_SM); replaceBits(cfg3, Config3_TL_HI, Config3_TL_LO, cp.CP0_Config3_TL); setRegNoEffect(Config3, cfg3); // Now, create Write Mask for Config register MiscReg cfg3_Mask = 0; // Read Only Register replaceBits(cfg3_Mask,0,32,0); setRegMask(Config3,cfg3_Mask); // EBase - CPUNum MiscReg EB = readRegNoEffect(EBase); replaceBits(EB, EBase_CPUNum_HI, EBase_CPUNum_LO, cp.CP0_EBase_CPUNum); replaceBits(EB, 31, 31, 1); setRegNoEffect(EBase, EB); // Now, create Write Mask for Config register MiscReg EB_Mask = 0x3FFFF000;// Except Exception Base, the // entire register is read only replaceBits(EB_Mask,0,32,0); setRegMask(EBase,EB_Mask); // SRS Control - HSS (Highest Shadow Set) MiscReg SC = readRegNoEffect(SRSCtl); replaceBits(SC, SRSCtl_HSS_HI,SRSCtl_HSS_LO,cp.CP0_SrsCtl_HSS); setRegNoEffect(SRSCtl, SC); // Now, create Write Mask for the SRS Ctl register MiscReg SC_Mask = 0x0000F3C0; replaceBits(SC_Mask,0,32,0); setRegMask(SRSCtl,SC_Mask); // IntCtl - IPTI, IPPCI MiscReg IC = readRegNoEffect(IntCtl); replaceBits(IC, IntCtl_IPTI_HI,IntCtl_IPTI_LO,cp.CP0_IntCtl_IPTI); replaceBits(IC, IntCtl_IPPCI_HI,IntCtl_IPPCI_LO,cp.CP0_IntCtl_IPPCI); setRegNoEffect(IntCtl, IC); // Now, create Write Mask for the IntCtl register MiscReg IC_Mask = 0x000003E0; replaceBits(IC_Mask,0,32,0); setRegMask(IntCtl,IC_Mask); // Watch Hi - M - FIXME (More than 1 Watch register) MiscReg WHi = readRegNoEffect(WatchHi0); replaceBits(WHi, WatchHi_M, cp.CP0_WatchHi_M); setRegNoEffect(WatchHi0, WHi); // Now, create Write Mask for the IntCtl register MiscReg wh_Mask = 0x7FFF0FFF; replaceBits(wh_Mask,0,32,0); setRegMask(WatchHi0,wh_Mask); // Perf Ctr - M - FIXME (More than 1 PerfCnt Pair) MiscReg PCtr = readRegNoEffect(PerfCnt0); replaceBits(PCtr, PerfCntCtl_M, cp.CP0_PerfCtr_M); replaceBits(PCtr, PerfCntCtl_W, cp.CP0_PerfCtr_W); setRegNoEffect(PerfCnt0, PCtr); // Now, create Write Mask for the IntCtl register MiscReg pc_Mask = 0x00007FF; replaceBits(pc_Mask,0,32,0); setRegMask(PerfCnt0,pc_Mask); // Random MiscReg random = readRegNoEffect(CP0_Random); random = 63; setRegNoEffect(CP0_Random, random); // Now, create Write Mask for the IntCtl register MiscReg random_Mask = 0; replaceBits(random_Mask,0,32,0); setRegMask(CP0_Random,random_Mask); // PageGrain MiscReg pagegrain = readRegNoEffect(PageGrain); replaceBits(pagegrain,PageGrain_ESP,cp.CP0_Config3_SP); setRegNoEffect(PageGrain, pagegrain); // Now, create Write Mask for the IntCtl register MiscReg pg_Mask = 0x10000000; replaceBits(pg_Mask,0,32,0); setRegMask(PageGrain,pg_Mask); // Status MiscReg stat = readRegNoEffect(Status); // Only CU0 and IE are modified on a reset - everything else needs // to be controlled on a per CPU model basis // Enable CP0 on reset // replaceBits(stat, Status_CU0_HI,Status_CU0_LO, 1); // Enable ERL bit on a reset replaceBits(stat, Status_ERL_HI, Status_ERL_LO, 1); // Enable BEV bit on a reset replaceBits(stat, Status_BEV_HI, Status_BEV_LO, 1); setRegNoEffect(Status, stat); // Now, create Write Mask for the Status register MiscReg stat_Mask = 0xFF78FF17; replaceBits(stat_Mask,0,32,0); setRegMask(Status,stat_Mask); // MVPConf0 MiscReg mvp_conf0 = readRegNoEffect(MVPConf0); replaceBits(mvp_conf0, MVPC0_TCA, 1); replaceBits(mvp_conf0, MVPC0_PVPE_HI, MVPC0_PVPE_LO, num_vpes - 1); replaceBits(mvp_conf0, MVPC0_PTC_HI, MVPC0_PTC_LO, num_threads - 1); setRegNoEffect(MVPConf0, mvp_conf0); // VPEConf0 MiscReg vpe_conf0 = readRegNoEffect(VPEConf0); replaceBits(vpe_conf0, VPEC0_MVP, 1); setRegNoEffect(VPEConf0, vpe_conf0); // TCBind for (ThreadID tid = 0; tid < num_threads; tid++) { MiscReg tc_bind = readRegNoEffect(TCBind, tid); replaceBits(tc_bind, TCB_CUR_TC_HI, TCB_CUR_TC_LO, tid); setRegNoEffect(TCBind, tc_bind, tid); } // TCHalt MiscReg tc_halt = readRegNoEffect(TCHalt); replaceBits(tc_halt, TCH_H, 0); setRegNoEffect(TCHalt, tc_halt); /*for (ThreadID tid = 1; tid < num_threads; tid++) { // Set TCHalt Halt bit to 1 for all other threads tc_halt = readRegNoEffect(TCHalt, tid); replaceBits(tc_halt, TCH_H, 1); setReg(TCHalt, tc_halt, tid); }*/ // TCStatus // Set TCStatus Activated to 1 for the initial thread that is running MiscReg tc_status = readRegNoEffect(TCStatus); replaceBits(tc_status, TCS_A, 1); setRegNoEffect(TCStatus, tc_status); // Set Dynamically Allocatable bit to 1 for all other threads for (ThreadID tid = 1; tid < num_threads; tid++) { tc_status = readRegNoEffect(TCStatus, tid); replaceBits(tc_status, TCSTATUS_DA, 1); setRegNoEffect(TCStatus, tc_status, tid); } MiscReg Mask = 0x7FFFFFFF; // Now, create Write Mask for the Index register replaceBits(Mask,0,32,0); setRegMask(Index,Mask); Mask = 0x3FFFFFFF; replaceBits(Mask,0,32,0); setRegMask(EntryLo0,Mask); setRegMask(EntryLo1,Mask); Mask = 0xFF800000; replaceBits(Mask,0,32,0); setRegMask(Context,Mask); Mask = 0x1FFFF800; replaceBits(Mask,0,32,0); setRegMask(PageMask,Mask); Mask = 0x0; replaceBits(Mask,0,32,0); setRegMask(BadVAddr,Mask); setRegMask(LLAddr,Mask); Mask = 0x08C00300; replaceBits(Mask,0,32,0); setRegMask(Cause,Mask); } inline unsigned MiscRegFile::getVPENum(ThreadID tid) { unsigned tc_bind = miscRegFile[TCBind - Ctrl_Base_DepTag][tid]; return bits(tc_bind, TCB_CUR_VPE_HI, TCB_CUR_VPE_LO); } MiscReg MiscRegFile::readRegNoEffect(int reg_idx, ThreadID tid) { int misc_reg = reg_idx - Ctrl_Base_DepTag; unsigned reg_sel = (bankType[misc_reg] == perThreadContext) ? tid : getVPENum(tid); DPRINTF(MipsPRA, "Reading CP0 Register:%u Select:%u (%s) (%lx).\n", misc_reg / 8, misc_reg % 8, miscRegNames[misc_reg], miscRegFile[misc_reg][reg_sel]); return miscRegFile[misc_reg][reg_sel]; } //@TODO: MIPS MT's register view automatically connects // Status to TCStatus depending on current thread //template MiscReg MiscRegFile::readReg(int reg_idx, ThreadContext *tc, ThreadID tid) { int misc_reg = reg_idx - Ctrl_Base_DepTag; unsigned reg_sel = (bankType[misc_reg] == perThreadContext) ? tid : getVPENum(tid); DPRINTF(MipsPRA, "Reading CP0 Register:%u Select:%u (%s) with effect (%lx).\n", misc_reg / 8, misc_reg % 8, miscRegNames[misc_reg], miscRegFile[misc_reg][reg_sel]); switch (misc_reg) { default: return miscRegFile[misc_reg][reg_sel]; } } void MiscRegFile::setRegNoEffect(int reg_idx, const MiscReg &val, ThreadID tid) { int misc_reg = reg_idx - Ctrl_Base_DepTag; unsigned reg_sel = (bankType[misc_reg] == perThreadContext) ? tid : getVPENum(tid); DPRINTF(MipsPRA, "[tid:%i]: Setting (direct set) CP0 Register:%u " "Select:%u (%s) to %#x.\n", tid, misc_reg / 8, misc_reg % 8, miscRegNames[misc_reg], val); miscRegFile[misc_reg][reg_sel] = val; } void MiscRegFile::setRegMask(int reg_idx, const MiscReg &val, ThreadID tid) { // return; int misc_reg = reg_idx - Ctrl_Base_DepTag; unsigned reg_sel = (bankType[misc_reg] == perThreadContext) ? tid : getVPENum(tid); DPRINTF(MipsPRA, "[tid:%i]: Setting CP0 Register: %u Select: %u (%s) to %#x\n", tid, misc_reg / 8, misc_reg % 8, miscRegNames[misc_reg], val); miscRegFile_WriteMask[misc_reg][reg_sel] = val; } // PROGRAMMER'S NOTES: // (1) Some CP0 Registers have fields that cannot // be overwritten. Make sure to handle those particular registers // with care! //template void MiscRegFile::setReg(int reg_idx, const MiscReg &val, ThreadContext *tc, ThreadID tid) { int misc_reg = reg_idx - Ctrl_Base_DepTag; int reg_sel = (bankType[misc_reg] == perThreadContext) ? tid : getVPENum(tid); DPRINTF(MipsPRA, "[tid:%i]: Setting CP0 Register:%u " "Select:%u (%s) to %#x, with effect.\n", tid, misc_reg / 8, misc_reg % 8, miscRegNames[misc_reg], val); MiscReg cp0_val = filterCP0Write(misc_reg, reg_sel, val); miscRegFile[misc_reg][reg_sel] = cp0_val; scheduleCP0Update(1); } /** * This method doesn't need to adjust the Control Register Offset * since it has already been done in the calling method * (setRegWithEffect) */ MiscReg MiscRegFile::filterCP0Write(int misc_reg, int reg_sel, const MiscReg &val) { MiscReg retVal = val; // Mask off read-only regions retVal &= miscRegFile_WriteMask[misc_reg][reg_sel]; MiscReg curVal = miscRegFile[misc_reg][reg_sel]; // Mask off current alue with inverse mask (clear writeable bits) curVal &= (~miscRegFile_WriteMask[misc_reg][reg_sel]); retVal |= curVal; // Combine the two DPRINTF(MipsPRA, "filterCP0Write: Mask: %lx, Inverse Mask: %lx, write Val: %x, " "current val: %lx, written val: %x\n", miscRegFile_WriteMask[misc_reg][reg_sel], ~miscRegFile_WriteMask[misc_reg][reg_sel], val, miscRegFile[misc_reg][reg_sel], retVal); return retVal; } void MiscRegFile::scheduleCP0Update(int delay) { if (!cp0Updated) { cp0Updated = true; //schedule UPDATE CP0Event *cp0_event = new CP0Event(this, cpu, UpdateCP0); cpu->schedule(cp0_event, curTick + cpu->ticks(delay)); } } void MiscRegFile::updateCPU() { /////////////////////////////////////////////////////////////////// // // EVALUATE CP0 STATE FOR MIPS MT // /////////////////////////////////////////////////////////////////// unsigned mvp_conf0 = readRegNoEffect(MVPConf0); ThreadID num_threads = bits(mvp_conf0, MVPC0_PTC_HI, MVPC0_PTC_LO) + 1; for (ThreadID tid = 0; tid < num_threads; tid++) { MiscReg tc_status = readRegNoEffect(TCStatus, tid); MiscReg tc_halt = readRegNoEffect(TCHalt, tid); //@todo: add vpe/mt check here thru mvpcontrol & vpecontrol regs if (bits(tc_halt, TCH_H) == 1 || bits(tc_status, TCS_A) == 0) { haltThread(cpu->getContext(tid)); } else if (bits(tc_halt, TCH_H) == 0 && bits(tc_status, TCS_A) == 1) { restoreThread(cpu->getContext(tid)); } } num_threads = bits(mvp_conf0, MVPC0_PTC_HI, MVPC0_PTC_LO) + 1; // Toggle update flag after we finished updating cp0Updated = false; } MiscRegFile::CP0Event::CP0Event(CP0 *_cp0, BaseCPU *_cpu, CP0EventType e_type) : Event(CPU_Tick_Pri), cp0(_cp0), cpu(_cpu), cp0EventType(e_type) { } void MiscRegFile::CP0Event::process() { switch (cp0EventType) { case UpdateCP0: cp0->updateCPU(); break; } //cp0EventRemoveList.push(this); } const char * MiscRegFile::CP0Event::description() const { return "Coprocessor-0 event"; } void MiscRegFile::CP0Event::scheduleEvent(int delay) { cpu->reschedule(this, curTick + cpu->ticks(delay), true); } void MiscRegFile::CP0Event::unscheduleEvent() { if (scheduled()) squash(); }