/* * Copyright (c) 2003-2005 The Regents of The University of Michigan * 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. */ #ifndef __ARCH_MIPS_ISA_TRAITS_HH__ #define __ARCH_MIPS_ISA_TRAITS_HH__ //#include "arch/mips/misc_regfile.hh" #include "base/misc.hh" #include "config/full_system.hh" #include "sim/host.hh" #include "sim/faults.hh" #include class FastCPU; class FullCPU; class Checkpoint; class ExecContext; namespace LittleEndianGuest {}; #define TARGET_MIPS class StaticInst; class StaticInstPtr; namespace MIPS34K { int DTB_ASN_ASN(uint64_t reg); int ITB_ASN_ASN(uint64_t reg); }; #if !FULL_SYSTEM class SyscallReturn { public: template SyscallReturn(T v, bool s) { retval = (uint32_t)v; success = s; } template SyscallReturn(T v) { success = (v >= 0); retval = (uint32_t)v; } ~SyscallReturn() {} SyscallReturn& operator=(const SyscallReturn& s) { retval = s.retval; success = s.success; return *this; } bool successful() { return success; } uint64_t value() { return retval; } private: uint64_t retval; bool success; }; #endif namespace MipsISA { using namespace LittleEndianGuest; typedef uint32_t MachInst; typedef uint32_t MachInst; typedef uint64_t ExtMachInst; typedef uint8_t RegIndex; // typedef uint64_t Addr; // Constants Related to the number of registers const int NumIntArchRegs = 32; const int NumPALShadowRegs = 8; const int NumFloatArchRegs = 32; // @todo: Figure out what this number really should be. const int NumMiscArchRegs = 32; const int NumIntRegs = NumIntArchRegs + NumPALShadowRegs; const int NumFloatRegs = NumFloatArchRegs; const int NumMiscRegs = NumMiscArchRegs; const int TotalNumRegs = NumIntRegs + NumFloatRegs + NumMiscRegs + 0/*NumInternalProcRegs*/; const int TotalDataRegs = NumIntRegs + NumFloatRegs; // Static instruction parameters const int MaxInstSrcRegs = 3; const int MaxInstDestRegs = 2; // semantically meaningful register indices const int ZeroReg = 0; const int AssemblerReg = 1; 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 SyscallNumReg = ReturnValueReg1; const int SyscallPseudoReturnReg = ReturnValueReg1; 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; // These enumerate all the registers for dependence tracking. enum DependenceTags { // 0..31 are the integer regs 0..31 // 32..63 are the FP regs 0..31, i.e. use (reg + FP_Base_DepTag) FP_Base_DepTag = 32, Ctrl_Base_DepTag = 64, Fpcr_DepTag = 64, // floating point control register Uniq_DepTag = 65, IPR_Base_DepTag = 66, MiscReg_DepTag = 67 }; typedef uint64_t IntReg; class IntRegFile { protected: IntReg regs[NumIntRegs]; public: IntReg readReg(int intReg) { return regs[intReg]; } Fault setReg(int intReg, const IntReg &val) { regs[intReg] = val; return NoFault; } void serialize(std::ostream &os); void unserialize(Checkpoint *cp, const std::string §ion); }; /* floating point register file entry type typedef union { uint64_t q; double d; } FloatReg;*/ typedef double FloatReg; typedef uint64_t FloatRegBits; /*typedef union { uint64_t q[NumFloatRegs]; // integer qword view double d[NumFloatRegs]; // double-precision floating point view } FloatRegFile;*/ class FloatRegFile { protected: FloatRegBits q[NumFloatRegs]; // integer qword view double d[NumFloatRegs]; // double-precision floating point view public: FloatReg readReg(int floatReg) { return d[floatReg]; } FloatReg readReg(int floatReg, int width) { return readReg(floatReg); } FloatRegBits readRegBits(int floatReg) { return q[floatReg]; } FloatRegBits readRegBits(int floatReg, int width) { return readRegBits(floatReg); } Fault setReg(int floatReg, const FloatReg &val) { d[floatReg] = val; return NoFault; } Fault setReg(int floatReg, const FloatReg &val, int width) { return setReg(floatReg, val); } Fault setRegBits(int floatReg, const FloatRegBits &val) { q[floatReg] = val; return NoFault; } Fault setRegBits(int floatReg, const FloatRegBits &val, int width) { return setRegBits(floatReg, val); } void serialize(std::ostream &os); void unserialize(Checkpoint *cp, const std::string §ion); }; void copyRegs(ExecContext *src, ExecContext *dest); // cop-0/cop-1 system control register file typedef uint64_t MiscReg; //typedef MiscReg MiscRegFile[NumMiscRegs]; class MiscRegFile { protected: uint64_t fpcr; // floating point condition codes uint64_t uniq; // process-unique register bool lock_flag; // lock flag for LL/SC Addr lock_addr; // lock address for LL/SC MiscReg miscRegFile[NumMiscRegs]; public: //These functions should be removed once the simplescalar cpu model //has been replaced. int getInstAsid(); int getDataAsid(); void copyMiscRegs(ExecContext *xc); MiscReg readReg(int misc_reg) { return miscRegFile[misc_reg]; } MiscReg readRegWithEffect(int misc_reg, Fault &fault, ExecContext *xc) { return miscRegFile[misc_reg];} Fault setReg(int misc_reg, const MiscReg &val) { miscRegFile[misc_reg] = val; return NoFault; } Fault setRegWithEffect(int misc_reg, const MiscReg &val, ExecContext *xc) { miscRegFile[misc_reg] = val; return NoFault; } #if FULL_SYSTEM void clearIprs() { } protected: InternalProcReg ipr[NumInternalProcRegs]; // Internal processor regs private: MiscReg readIpr(int idx, Fault &fault, ExecContext *xc) { } Fault setIpr(int idx, uint64_t val, ExecContext *xc) { } #endif friend class RegFile; }; enum MiscRegTags { //Coprocessor 0 Registers //Reference MIPS32 Arch. for Programmers, Vol. III, Ch.8 //(Register Number-Register Select) Summary of Register //------------------------------------------------------ Index = 0, //0-0 Index into the TLB array MVPControl = 1, //0-1 Per-processor register containing global //MIPSŪ MT configuration data MVPConf0 = 2, //0-2 Per-processor register containing global //MIPSŪ MT configuration data MVPConf1 = 3, //0-3 Per-processor register containing global //MIPSŪ MT configuration data Random = 8, //1-0 Randomly generated index into the TLB array VPEControl = 9, //1-1 Per-VPE register containing relatively volatile //thread configuration data VPEConf0 = 10, //1-2 Per-VPE multi-thread configuration //information VPEConf1 = 11, //1-2 Per-VPE multi-thread configuration //information YQMask = 12, //Per-VPE register defining which YIELD //qualifier bits may be used without generating //an exception VPESchedule = 13, VPEScheFBack = 14, VPEOpt = 15, EntryLo0 = 16, // Bank 3: 16 - 23 TCStatus = 17, TCBind = 18, TCRestart = 19, TCHalt = 20, TCContext = 21, TCSchedule = 22, TCScheFBack = 23, EntryLo1 = 24,// Bank 4: 24 - 31 Context = 32, // Bank 5: 32 - 39 ContextConfig = 33, //PageMask = 40, //Bank 6: 40 - 47 PageGrain = 41, Wired = 48, //Bank 7:48 - 55 SRSConf0 = 49, SRSConf1 = 50, SRSConf2 = 51, SRSConf3 = 52, SRSConf4 = 53, BadVAddr = 54, HWRena = 56,//Bank 8:56 - 63 Count = 64, //Bank 9:64 - 71 EntryHi = 72,//Bank 10:72 - 79 Compare = 80,//Bank 11:80 - 87 Status = 88,//Bank 12:88 - 96 //12-0 Processor status and control IntCtl = 89, //12-1 Interrupt system status and control SRSCtl = 90, //12-2 Shadow register set status and control SRSMap = 91, //12-3 Shadow set IPL mapping Cause = 97,//97-104 //13-0 Cause of last general exception EPC = 105,//105-112 //14-0 Program counter at last exception PRId = 113,//113-120, //15-0 Processor identification and revision EBase = 114, //15-1 Exception vector base register Config = 121,//Bank 16: 121-128 Config1 = 122, Config2 = 123, Config3 = 124, Config6 = 127, Config7 = 128, LLAddr = 129,//Bank 17: 129-136 WatchLo0 = 137,//Bank 18: 137-144 WatchLo1 = 138, WatchLo2 = 139, WatchLo3 = 140, WatchLo4 = 141, WatchLo5 = 142, WatchLo6 = 143, WatchLo7 = 144, WatchHi0 = 145,//Bank 19: 145-152 WatchHi1 = 146, WatchHi2 = 147, WatchHi3 = 148, WatchHi4 = 149, WatchHi5 = 150, WatchHi6 = 151, WatchHi7 = 152, XCContext64 = 153,//Bank 20: 153-160 //Bank 21: 161-168 //Bank 22: 169-176 Debug = 177, //Bank 23: 177-184 TraceControl1 = 178, TraceControl2 = 179, UserTraceData = 180, TraceBPC = 181, DEPC = 185,//Bank 24: 185-192 PerfCnt0 = 193,//Bank 25: 193 - 200 PerfCnt1 = 194, PerfCnt2 = 195, PerfCnt3 = 196, PerfCnt4 = 197, PerfCnt5 = 198, PerfCnt6 = 199, PerfCnt7 = 200, ErrCtl = 201, //Bank 26: 201 - 208 CacheErr0 = 209, //Bank 27: 209 - 216 CacheErr1 = 210, CacheErr2 = 211, CacheErr3 = 212, TagLo0 = 217,//Bank 28: 217 - 224 DataLo1 = 218, TagLo2 = 219, DataLo3 = 220, TagLo4 = 221, DataLo5 = 222, TagLo6 = 223, DataLo7 = 234, TagHi0 = 233,//Bank 29: 233 - 240 DataHi1 = 234, TagHi2 = 235, DataHi3 = 236, TagHi4 = 237, DataHi5 = 238, TagHi6 = 239, DataHi7 = 240, ErrorEPC = 249,//Bank 30: 241 - 248 DESAVE = 257,//Bank 31: 249-256 //More Misc. Regs Hi, Lo, FIR, FCSR, FPCR, //Alpha Regs, but here now, for //compiling sake UNIQ, LockAddr, LockFlag }; extern const Addr PageShift; extern const Addr PageBytes; extern const Addr PageMask; extern const Addr PageOffset; #if FULL_SYSTEM typedef uint64_t InternalProcReg; #include "arch/mips/isa_fullsys_traits.hh" #else enum { NumInternalProcRegs = 0 }; #endif typedef union { IntReg intreg; FloatReg fpreg; MiscReg ctrlreg; } AnyReg; class RegFile { protected: IntRegFile intRegFile; // (signed) integer register file FloatRegFile floatRegFile; // floating point register file MiscRegFile miscRegFile; // control register file public: void clear() { bzero(&intRegFile, sizeof(intRegFile)); bzero(&floatRegFile, sizeof(floatRegFile)); bzero(&miscRegFile, sizeof(miscRegFile)); } MiscReg readMiscReg(int miscReg) { return miscRegFile.readReg(miscReg); } MiscReg readMiscRegWithEffect(int miscReg, Fault &fault, ExecContext *xc) { fault = NoFault; return miscRegFile.readRegWithEffect(miscReg, fault, xc); } Fault setMiscReg(int miscReg, const MiscReg &val) { return miscRegFile.setReg(miscReg, val); } Fault setMiscRegWithEffect(int miscReg, const MiscReg &val, ExecContext * xc) { return miscRegFile.setRegWithEffect(miscReg, val, xc); } FloatReg readFloatReg(int floatReg) { return floatRegFile.readReg(floatReg); } FloatReg readFloatReg(int floatReg, int width) { return readFloatReg(floatReg); } FloatRegBits readFloatRegBits(int floatReg) { return floatRegFile.readRegBits(floatReg); } FloatRegBits readFloatRegBits(int floatReg, int width) { return readFloatRegBits(floatReg); } Fault setFloatReg(int floatReg, const FloatReg &val) { return floatRegFile.setReg(floatReg, val); } Fault setFloatReg(int floatReg, const FloatReg &val, int width) { return setFloatReg(floatReg, val); } Fault setFloatRegBits(int floatReg, const FloatRegBits &val) { return floatRegFile.setRegBits(floatReg, val); } Fault setFloatRegBits(int floatReg, const FloatRegBits &val, int width) { return setFloatRegBits(floatReg, val); } IntReg readIntReg(int intReg) { return intRegFile.readReg(intReg); } Fault setIntReg(int intReg, const IntReg &val) { return intRegFile.setReg(intReg, val); } protected: Addr pc; // program counter Addr npc; // next-cycle program counter Addr nnpc; // next-next-cycle program counter // used to implement branch delay slot // not real register public: Addr readPC() { return pc; } void setPC(Addr val) { pc = val; } Addr readNextPC() { return npc; } void setNextPC(Addr val) { npc = val; } Addr readNextNPC() { return nnpc; } void setNextNPC(Addr val) { nnpc = val; } MiscReg hi; // MIPS HI Register MiscReg lo; // MIPS LO Register #if FULL_SYSTEM IntReg palregs[NumIntRegs]; // PAL shadow registers InternalProcReg ipr[NumInternalProcRegs]; // internal processor regs int intrflag; // interrupt flag bool pal_shadow; // using pal_shadow registers inline int instAsid() { return MIPS34K::ITB_ASN_ASN(ipr[IPR_ITB_ASN]); } inline int dataAsid() { return MIPS34K::DTB_ASN_ASN(ipr[IPR_DTB_ASN]); } #endif // FULL_SYSTEM //void initCP0Regs(); void serialize(std::ostream &os); void unserialize(Checkpoint *cp, const std::string §ion); void createCP0Regs(); void coldReset(); typedef int ContextParam; typedef int ContextVal; void changeContext(ContextParam param, ContextVal val) { } }; StaticInstPtr decodeInst(ExtMachInst); // return a no-op instruction... used for instruction fetch faults extern const MachInst NoopMachInst; enum annotes { ANNOTE_NONE = 0, // An impossible number for instruction annotations ITOUCH_ANNOTE = 0xffffffff, }; //void getMiscRegIdx(int reg_name,int &idx, int &sel); static inline ExtMachInst makeExtMI(MachInst inst, const uint64_t &pc) { #if FULL_SYSTEM ExtMachInst ext_inst = inst; if (pc && 0x1) return ext_inst|=(static_cast(pc & 0x1) << 32); else return ext_inst; #else return ExtMachInst(inst); #endif } static inline bool isCallerSaveIntegerRegister(unsigned int reg) { panic("register classification not implemented"); return (reg >= 1 && reg <= 8 || reg >= 22 && reg <= 25 || reg == 27); } static inline bool isCalleeSaveIntegerRegister(unsigned int reg) { panic("register classification not implemented"); return (reg >= 9 && reg <= 15); } static inline bool isCallerSaveFloatRegister(unsigned int reg) { panic("register classification not implemented"); return false; } static inline bool isCalleeSaveFloatRegister(unsigned int reg) { panic("register classification not implemented"); return false; } static inline Addr alignAddress(const Addr &addr, unsigned int nbytes) { return (addr & ~(nbytes - 1)); } // Instruction address compression hooks static inline Addr realPCToFetchPC(const Addr &addr) { return addr; } static inline Addr fetchPCToRealPC(const Addr &addr) { return addr; } // the size of "fetched" instructions (not necessarily the size // of real instructions for PISA) static inline size_t fetchInstSize() { return sizeof(MachInst); } static inline MachInst makeRegisterCopy(int dest, int src) { panic("makeRegisterCopy not implemented"); return 0; } static inline void setSyscallReturn(SyscallReturn return_value, RegFile *regs) { if (return_value.successful()) { // no error regs->setIntReg(SyscallSuccessReg, 0); regs->setIntReg(ReturnValueReg1, return_value.value()); } else { // got an error, return details regs->setIntReg(SyscallSuccessReg, (IntReg) -1); regs->setIntReg(ReturnValueReg1, -return_value.value()); } } // Machine operations void saveMachineReg(AnyReg &savereg, const RegFile ®_file, int regnum); void restoreMachineReg(RegFile ®s, const AnyReg ®, int regnum); #if 0 static void serializeSpecialRegs(const Serializable::Proxy &proxy, const RegFile ®s); static void unserializeSpecialRegs(const IniFile *db, const std::string &category, ConfigNode *node, RegFile ®s); #endif /** * Function to insure ISA semantics about 0 registers. * @param xc The execution context. */ template void zeroRegisters(XC *xc); const Addr MaxAddr = (Addr)-1; }; #if FULL_SYSTEM //typedef TheISA::InternalProcReg InternalProcReg; //const int NumInternalProcRegs = TheISA::NumInternalProcRegs; //const int NumInterruptLevels = TheISA::NumInterruptLevels; #include "arch/mips/mips34k.hh" #endif using namespace MipsISA; #endif // __ARCH_MIPS_ISA_TRAITS_HH__