/* * Copyright N) 2007 MIPS Technologies, Inc. All Rights Reserved * * This software is part of the M5 simulator. * * THIS IS A LEGAL AGREEMENT. BY DOWNLOADING, USING, COPYING, CREATING * DERIVATIVE WORKS, AND/OR DISTRIBUTING THIS SOFTWARE YOU ARE AGREEING * TO THESE TERMS AND CONDITIONS. * * Permission is granted to use, copy, create derivative works and * distribute this software and such derivative works for any purpose, * so long as (1) the copyright notice above, this grant of permission, * and the disclaimer below appear in all copies and derivative works * made, (2) the copyright notice above is augmented as appropriate to * reflect the addition of any new copyrightable work in a derivative * work (e.g., Copyright N) Copyright Owner), and (3) * the name of MIPS Technologies, Inc. ($(B!H(BMIPS$(B!I(B) is not used in any * advertising or publicity pertaining to the use or distribution of * this software without specific, written prior authorization. * * THIS SOFTWARE IS PROVIDED $(B!H(BAS IS.$(B!I(B MIPS MAKES NO WARRANTIES AND * DISCLAIMS ALL WARRANTIES, WHETHER EXPRESS, STATUTORY, IMPLIED OR * OTHERWISE, INCLUDING BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND * NON-INFRINGEMENT OF THIRD PARTY RIGHTS, REGARDING THIS SOFTWARE. * IN NO EVENT SHALL MIPS BE LIABLE FOR ANY DAMAGES, INCLUDING DIRECT, * INDIRECT, INCIDENTAL, CONSEQUENTIAL, SPECIAL, OR PUNITIVE DAMAGES OF * ANY KIND OR NATURE, ARISING OUT OF OR IN CONNECTION WITH THIS AGREEMENT, * THIS SOFTWARE AND/OR THE USE OF THIS SOFTWARE, WHETHER SUCH LIABILITY * IS ASSERTED ON THE BASIS OF CONTRACT, TORT (INCLUDING NEGLIGENCE OR * STRICT LIABILITY), OR OTHERWISE, EVEN IF MIPS HAS BEEN WARNED OF THE * POSSIBILITY OF ANY SUCH LOSS OR DAMAGE IN ADVANCE. * * Authors: Gabe M. Black * Korey L. Sewell * Jaidev Patwardhan */ #ifndef __ARCH_MIPS_ISA_TRAITS_HH__ #define __ARCH_MIPS_ISA_TRAITS_HH__ #include "arch/mips/types.hh" #include "config/full_system.hh" #include "sim/host.hh" namespace LittleEndianGuest {}; #define TARGET_MIPS class StaticInstPtr; namespace MipsISA { using namespace LittleEndianGuest; StaticInstPtr decodeInst(ExtMachInst); // MIPS DOES have a delay slot #define ISA_HAS_DELAY_SLOT 1 const Addr PageShift = 13; const Addr PageBytes = ULL(1) << PageShift; const Addr Page_Mask = ~(PageBytes - 1); const Addr PageOffset = PageBytes - 1; //////////////////////////////////////////////////////////////////////// // // Translation stuff // const Addr PteShift = 3; const Addr NPtePageShift = PageShift - PteShift; const Addr NPtePage = ULL(1) << NPtePageShift; const Addr PteMask = NPtePage - 1; //// All 'Mapped' segments go through the TLB //// All other segments are translated by dropping the MSB, to give //// the corresponding physical address // User Segment - Mapped const Addr USegBase = ULL(0x0); const Addr USegEnd = ULL(0x7FFFFFFF); // Kernel Segment 0 - Unmapped const Addr KSeg0End = ULL(0x9FFFFFFF); const Addr KSeg0Base = ULL(0x80000000); const Addr KSeg0Mask = ULL(0x1FFFFFFF); // Kernel Segment 1 - Unmapped, Uncached const Addr KSeg1End = ULL(0xBFFFFFFF); const Addr KSeg1Base = ULL(0xA0000000); const Addr KSeg1Mask = ULL(0x1FFFFFFF); // Kernel/Supervisor Segment - Mapped const Addr KSSegEnd = ULL(0xDFFFFFFF); const Addr KSSegBase = ULL(0xC0000000); // Kernel Segment 3 - Mapped const Addr KSeg3End = ULL(0xFFFFFFFF); const Addr KSeg3Base = ULL(0xE0000000); // For loading... XXX This maybe could be USegEnd?? --ali const Addr LoadAddrMask = ULL(0xffffffffff); inline Addr Phys2K0Seg(Addr addr) { // if (addr & PAddrUncachedBit43) { // addr &= PAddrUncachedMask; // addr |= PAddrUncachedBit40; // } return addr | KSeg0Base; } //////////////////////////////////////////////////////////////////////// // // Interrupt levels // enum InterruptLevels { INTLEVEL_SOFTWARE_MIN = 4, INTLEVEL_SOFTWARE_MAX = 19, INTLEVEL_EXTERNAL_MIN = 20, INTLEVEL_EXTERNAL_MAX = 34, INTLEVEL_IRQ0 = 20, INTLEVEL_IRQ1 = 21, INTINDEX_ETHERNET = 0, INTINDEX_SCSI = 1, INTLEVEL_IRQ2 = 22, INTLEVEL_IRQ3 = 23, INTLEVEL_SERIAL = 33, NumInterruptLevels = INTLEVEL_EXTERNAL_MAX }; // MIPS modes enum mode_type { mode_kernel = 0, // kernel mode_supervisor = 1, // supervisor mode_user = 2, // user mode mode_debug = 3, // debug mode mode_number // number of modes }; inline mode_type getOperatingMode(MiscReg Stat) { if((Stat & 0x10000006) != 0 || (Stat & 0x18) ==0) return mode_kernel; else{ if((Stat & 0x18) == 0x8) return mode_supervisor; else if((Stat & 0x18) == 0x10) return mode_user; else return mode_number; } } // return a no-op instruction... used for instruction fetch faults const ExtMachInst NoopMachInst = 0x00000000; // Constants Related to the number of registers const int NumIntArchRegs = 32; const int NumIntSpecialRegs = 9; const int NumFloatArchRegs = 32; const int NumFloatSpecialRegs = 5; const int NumShadowRegSets = 16; // Maximum number of shadow register sets const int NumIntRegs = NumIntArchRegs*NumShadowRegSets + NumIntSpecialRegs; //HI & LO Regs const int NumFloatRegs = NumFloatArchRegs + NumFloatSpecialRegs;// // Static instruction parameters const int MaxInstSrcRegs = 10; const int MaxInstDestRegs = 8; // semantically meaningful register indices const int ZeroReg = 0; const int AssemblerReg = 1; const int ReturnValueReg = 2; const int ReturnValueReg1 = 2; const int ReturnValueReg2 = 3; const int ArgumentReg0 = 4; const int ArgumentReg1 = 5; const int ArgumentReg2 = 6; const int ArgumentReg3 = 7; const int KernelReg0 = 26; const int KernelReg1 = 27; const int GlobalPointerReg = 28; const int StackPointerReg = 29; const int FramePointerReg = 30; const int ReturnAddressReg = 31; const int ArgumentReg[] = {4, 5, 6, 7}; const int NumArgumentRegs = sizeof(ArgumentReg) / sizeof(const int); const int SyscallNumReg = ReturnValueReg1; const int SyscallPseudoReturnReg = ReturnValueReg2; const int SyscallSuccessReg = ArgumentReg3; const int LogVMPageSize = 13; // 8K bytes const int VMPageSize = (1 << LogVMPageSize); const int BranchPredAddrShiftAmt = 2; // instructions are 4-byte aligned const int MachineBytes = 4; const int WordBytes = 4; const int HalfwordBytes = 2; const int ByteBytes = 1; const int ANNOTE_NONE = 0; const uint32_t ITOUCH_ANNOTE = 0xffffffff; // These help enumerate all the registers for dependence tracking. const int FP_Base_DepTag = NumIntRegs; const int Ctrl_Base_DepTag = FP_Base_DepTag + NumFloatRegs; // Enumerate names for 'Control' Registers in the CPU // Reference MIPS32 Arch. for Programmers, Vol. III, Ch.8 // (Register Number-Register Select) Summary of Register //------------------------------------------------------ // The first set of names classify the CP0 names as Register Banks // for easy indexing when using the 'RD + SEL' index combination // in CP0 instructions. enum MiscRegTags { Index = Ctrl_Base_DepTag + 0, //Bank 0: 0 - 3 MVPControl, MVPConf0, MVPConf1, CP0_Random = Ctrl_Base_DepTag + 8, //Bank 1: 8 - 15 VPEControl, VPEConf0, VPEConf1, YQMask, VPESchedule, VPEScheFBack, VPEOpt, EntryLo0 = Ctrl_Base_DepTag + 16, //Bank 2: 16 - 23 TCStatus, TCBind, TCRestart, TCHalt, TCContext, TCSchedule, TCScheFBack, EntryLo1 = Ctrl_Base_DepTag + 24, // Bank 3: 24 Context = Ctrl_Base_DepTag + 32, // Bank 4: 32 - 33 ContextConfig, PageMask = Ctrl_Base_DepTag + 40, //Bank 5: 40 - 41 PageGrain = Ctrl_Base_DepTag + 41, Wired = Ctrl_Base_DepTag + 48, //Bank 6:48-55 SRSConf0, SRSConf1, SRSConf2, SRSConf3, SRSConf4, HWRena = Ctrl_Base_DepTag + 56, //Bank 7: 56-63 BadVAddr = Ctrl_Base_DepTag + 64, //Bank 8: 64-71 Count = Ctrl_Base_DepTag + 72, //Bank 9: 72-79 EntryHi = Ctrl_Base_DepTag + 80, //Bank 10: 80-87 Compare = Ctrl_Base_DepTag + 88, //Bank 11: 88-95 Status = Ctrl_Base_DepTag + 96, //Bank 12: 96-103 IntCtl, SRSCtl, SRSMap, Cause = Ctrl_Base_DepTag + 104, //Bank 13: 104-111 EPC = Ctrl_Base_DepTag + 112, //Bank 14: 112-119 PRId = Ctrl_Base_DepTag + 120, //Bank 15: 120-127, EBase, Config = Ctrl_Base_DepTag + 128, //Bank 16: 128-135 Config1, Config2, Config3, Config4, Config5, Config6, Config7, LLAddr = Ctrl_Base_DepTag + 136, //Bank 17: 136-143 WatchLo0 = Ctrl_Base_DepTag + 144, //Bank 18: 144-151 WatchLo1, WatchLo2, WatchLo3, WatchLo4, WatchLo5, WatchLo6, WatchLo7, WatchHi0 = Ctrl_Base_DepTag + 152, //Bank 19: 152-159 WatchHi1, WatchHi2, WatchHi3, WatchHi4, WatchHi5, WatchHi6, WatchHi7, XCContext64 = Ctrl_Base_DepTag + 160, //Bank 20: 160-167 //Bank 21: 168-175 //Bank 22: 176-183 Debug = Ctrl_Base_DepTag + 184, //Bank 23: 184-191 TraceControl1, TraceControl2, UserTraceData, TraceBPC, DEPC = Ctrl_Base_DepTag + 192, //Bank 24: 192-199 PerfCnt0 = Ctrl_Base_DepTag + 200, //Bank 25: 200-207 PerfCnt1, PerfCnt2, PerfCnt3, PerfCnt4, PerfCnt5, PerfCnt6, PerfCnt7, ErrCtl = Ctrl_Base_DepTag + 208, //Bank 26: 208-215 CacheErr0 = Ctrl_Base_DepTag + 216, //Bank 27: 216-223 CacheErr1, CacheErr2, CacheErr3, TagLo0 = Ctrl_Base_DepTag + 224, //Bank 28: 224-231 DataLo1, TagLo2, DataLo3, TagLo4, DataLo5, TagLo6, DataLo7, TagHi0 = Ctrl_Base_DepTag + 232, //Bank 29: 232-239 DataHi1, TagHi2, DataHi3, TagHi4, DataHi5, TagHi6, DataHi7, ErrorEPC = Ctrl_Base_DepTag + 240, //Bank 30: 240-247 DESAVE = Ctrl_Base_DepTag + 248, //Bank 31: 248-256 LLFlag = Ctrl_Base_DepTag + 257, NumControlRegs }; const int TotalDataRegs = NumIntRegs + NumFloatRegs; const int NumMiscRegs = NumControlRegs; const int TotalNumRegs = NumIntRegs + NumFloatRegs + NumMiscRegs; }; using namespace MipsISA; #endif // __ARCH_MIPS_ISA_TRAITS_HH__