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// Copyright (c) 2008 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.
//
// Authors: Gabe Black

// Copyright (c) 2007-2008 The Hewlett-Packard Development Company
// All rights reserved.
//
// Redistribution and use of this software in source and binary forms,
// with or without modification, are permitted provided that the
// following conditions are met:
//
// The software must be used only for Non-Commercial Use which means any
// use which is NOT directed to receiving any direct monetary
// compensation for, or commercial advantage from such use.  Illustrative
// examples of non-commercial use are academic research, personal study,
// teaching, education and corporate research & development.
// Illustrative examples of commercial use are distributing products for
// commercial advantage and providing services using the software for
// commercial advantage.
//
// If you wish to use this software or functionality therein that may be
// covered by patents for commercial use, please contact:
//     Director of Intellectual Property Licensing
//     Office of Strategy and Technology
//     Hewlett-Packard Company
//     1501 Page Mill Road
//     Palo Alto, California  94304
//
// 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 HOLDER(s), HEWLETT-PACKARD COMPANY, nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.  No right of
// sublicense is granted herewith.  Derivatives of the software and
// output created using the software may be prepared, but only for
// Non-Commercial Uses.  Derivatives of the software may be shared with
// others provided: (i) the others agree to abide by the list of
// conditions herein which includes the Non-Commercial Use restrictions;
// and (ii) such Derivatives of the software include the above copyright
// notice to acknowledge the contribution from this software where
// applicable, this list of conditions and the disclaimer below.
//
// 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: Gabe Black

//////////////////////////////////////////////////////////////////////////
//
// LdStOp Microop templates
//
//////////////////////////////////////////////////////////////////////////

// LEA template

def template MicroLeaExecute {{
    Fault %(class_name)s::execute(%(CPU_exec_context)s *xc,
          Trace::InstRecord *traceData) const
    {
        Fault fault = NoFault;
        Addr EA;

        %(op_decl)s;
        %(op_rd)s;
        %(ea_code)s;
        DPRINTF(X86, "%s : %s: The address is %#x\n", instMnem, mnemonic, EA);

        %(code)s;
        if(fault == NoFault)
        {
            %(op_wb)s;
        }

        return fault;
    }
}};

def template MicroLeaDeclare {{
    class %(class_name)s : public %(base_class)s
    {
      protected:
        void buildMe();

      public:
        %(class_name)s(ExtMachInst _machInst,
                const char * instMnem,
                bool isMicro, bool isDelayed, bool isFirst, bool isLast,
                uint8_t _scale, RegIndex _index, RegIndex _base,
                uint64_t _disp, uint8_t _segment,
                RegIndex _data,
                uint8_t _dataSize, uint8_t _addressSize);

        %(class_name)s(ExtMachInst _machInst,
                const char * instMnem,
                uint8_t _scale, RegIndex _index, RegIndex _base,
                uint64_t _disp, uint8_t _segment,
                RegIndex _data,
                uint8_t _dataSize, uint8_t _addressSize);

        %(BasicExecDeclare)s
    };
}};

// Load templates

def template MicroLoadExecute {{
    Fault %(class_name)s::execute(%(CPU_exec_context)s *xc,
          Trace::InstRecord *traceData) const
    {
        Fault fault = NoFault;
        Addr EA;

        %(op_decl)s;
        %(op_rd)s;
        %(ea_code)s;
        DPRINTF(X86, "%s : %s: The address is %#x\n", instMnem, mnemonic, EA);

        fault = read(xc, EA, Mem, (%(mem_flags)s) | segment);

        if(fault == NoFault)
        {
            %(code)s;
        }
        if(fault == NoFault)
        {
            %(op_wb)s;
        }

        return fault;
    }
}};

def template MicroLoadInitiateAcc {{
    Fault %(class_name)s::initiateAcc(%(CPU_exec_context)s * xc,
            Trace::InstRecord * traceData) const
    {
        Fault fault = NoFault;
        Addr EA;

        %(op_decl)s;
        %(op_rd)s;
        %(ea_code)s;
        DPRINTF(X86, "%s : %s: The address is %#x\n", instMnem, mnemonic, EA);

        fault = read(xc, EA, Mem, (%(mem_flags)s) | segment);

        return fault;
    }
}};

def template MicroLoadCompleteAcc {{
    Fault %(class_name)s::completeAcc(PacketPtr pkt,
            %(CPU_exec_context)s * xc,
            Trace::InstRecord * traceData) const
    {
        Fault fault = NoFault;

        %(op_decl)s;
        %(op_rd)s;

        Mem = get(pkt);

        %(code)s;

        if(fault == NoFault)
        {
            %(op_wb)s;
        }

        return fault;
    }
}};

// Store templates

def template MicroStoreExecute {{
    Fault %(class_name)s::execute(%(CPU_exec_context)s * xc,
            Trace::InstRecord *traceData) const
    {
        Fault fault = NoFault;

        Addr EA;
        %(op_decl)s;
        %(op_rd)s;
        %(ea_code)s;
        DPRINTF(X86, "%s : %s: The address is %#x\n", instMnem, mnemonic, EA);

        %(code)s;

        if(fault == NoFault)
        {
            fault = write(xc, Mem, EA, (%(mem_flags)s) | segment);
            if(fault == NoFault)
            {
                %(op_wb)s;
            }
        }

        return fault;
    }
}};

def template MicroStoreInitiateAcc {{
    Fault %(class_name)s::initiateAcc(%(CPU_exec_context)s * xc,
            Trace::InstRecord * traceData) const
    {
        Fault fault = NoFault;

        Addr EA;
        %(op_decl)s;
        %(op_rd)s;
        %(ea_code)s;
        DPRINTF(X86, "%s : %s: The address is %#x\n", instMnem, mnemonic, EA);

        %(code)s;

        if(fault == NoFault)
        {
            fault = write(xc, Mem, EA, (%(mem_flags)s) | segment);
            if(fault == NoFault)
            {
                %(op_wb)s;
            }
        }
        return fault;
    }
}};

def template MicroStoreCompleteAcc {{
    Fault %(class_name)s::completeAcc(PacketPtr, %(CPU_exec_context)s * xc,
            Trace::InstRecord * traceData) const
    {
        return NoFault;
    }
}};

// Common templates

//This delcares the initiateAcc function in memory operations
def template InitiateAccDeclare {{
    Fault initiateAcc(%(CPU_exec_context)s *, Trace::InstRecord *) const;
}};

//This declares the completeAcc function in memory operations
def template CompleteAccDeclare {{
    Fault completeAcc(PacketPtr, %(CPU_exec_context)s *, Trace::InstRecord *) const;
}};

def template MicroLdStOpDeclare {{
    class %(class_name)s : public %(base_class)s
    {
      protected:
        void buildMe();

      public:
        %(class_name)s(ExtMachInst _machInst,
                const char * instMnem,
                bool isMicro, bool isDelayed, bool isFirst, bool isLast,
                uint8_t _scale, RegIndex _index, RegIndex _base,
                uint64_t _disp, uint8_t _segment,
                RegIndex _data,
                uint8_t _dataSize, uint8_t _addressSize);

        %(class_name)s(ExtMachInst _machInst,
                const char * instMnem,
                uint8_t _scale, RegIndex _index, RegIndex _base,
                uint64_t _disp, uint8_t _segment,
                RegIndex _data,
                uint8_t _dataSize, uint8_t _addressSize);

        %(BasicExecDeclare)s

        %(InitiateAccDeclare)s

        %(CompleteAccDeclare)s
    };
}};

def template MicroLdStOpConstructor {{

    inline void %(class_name)s::buildMe()
    {
        %(constructor)s;
    }

    inline %(class_name)s::%(class_name)s(
            ExtMachInst machInst, const char * instMnem,
            uint8_t _scale, RegIndex _index, RegIndex _base,
            uint64_t _disp, uint8_t _segment,
            RegIndex _data,
            uint8_t _dataSize, uint8_t _addressSize) :
        %(base_class)s(machInst, "%(mnemonic)s", instMnem,
                false, false, false, false,
                _scale, _index, _base,
                _disp, _segment, _data,
                _dataSize, _addressSize, %(op_class)s)
    {
        buildMe();
    }

    inline %(class_name)s::%(class_name)s(
            ExtMachInst machInst, const char * instMnem,
            bool isMicro, bool isDelayed, bool isFirst, bool isLast,
            uint8_t _scale, RegIndex _index, RegIndex _base,
            uint64_t _disp, uint8_t _segment,
            RegIndex _data,
            uint8_t _dataSize, uint8_t _addressSize) :
        %(base_class)s(machInst, "%(mnemonic)s", instMnem,
                isMicro, isDelayed, isFirst, isLast,
                _scale, _index, _base,
                _disp, _segment, _data,
                _dataSize, _addressSize, %(op_class)s)
    {
        buildMe();
    }
}};

let {{
    class LdStOp(X86Microop):
        def __init__(self, data, segment, addr, disp, dataSize, addressSize):
            self.data = data
            [self.scale, self.index, self.base] = addr
            self.disp = disp
            self.segment = segment
            self.dataSize = dataSize
            self.addressSize = addressSize

        def getAllocator(self, *microFlags):
            allocator = '''new %(class_name)s(machInst, mnemonic
                    %(flags)s, %(scale)s, %(index)s, %(base)s,
                    %(disp)s, %(segment)s, %(data)s,
                    %(dataSize)s, %(addressSize)s)''' % {
                "class_name" : self.className,
                "flags" : self.microFlagsText(microFlags),
                "scale" : self.scale, "index" : self.index,
                "base" : self.base,
                "disp" : self.disp,
                "segment" : self.segment, "data" : self.data,
                "dataSize" : self.dataSize, "addressSize" : self.addressSize}
            return allocator
}};

let {{

    # Make these empty strings so that concatenating onto
    # them will always work.
    header_output = ""
    decoder_output = ""
    exec_output = ""

    calculateEA = "EA = SegBase + scale * Index + Base + disp;"

    def defineMicroLoadOp(mnemonic, code, mem_flags=0):
        global header_output
        global decoder_output
        global exec_output
        global microopClasses
        Name = mnemonic
        name = mnemonic.lower()

        # Build up the all register version of this micro op
        iop = InstObjParams(name, Name, 'X86ISA::LdStOp',
                {"code": code,
                 "ea_code": calculateEA,
                 "mem_flags": mem_flags})
        header_output += MicroLdStOpDeclare.subst(iop)
        decoder_output += MicroLdStOpConstructor.subst(iop)
        exec_output += MicroLoadExecute.subst(iop)
        exec_output += MicroLoadInitiateAcc.subst(iop)
        exec_output += MicroLoadCompleteAcc.subst(iop)

        class LoadOp(LdStOp):
            def __init__(self, data, segment, addr, disp = 0,
                    dataSize="env.dataSize", addressSize="env.addressSize"):
                super(LoadOp, self).__init__(data, segment,
                        addr, disp, dataSize, addressSize)
                self.className = Name
                self.mnemonic = name

        microopClasses[name] = LoadOp

    defineMicroLoadOp('Ld', 'Data = merge(Data, Mem, dataSize);')
    defineMicroLoadOp('Ldst', 'Data = merge(Data, Mem, dataSize);', 'StoreCheck')
    defineMicroLoadOp('Ldfp', 'FpData.uqw = Mem;')

    def defineMicroStoreOp(mnemonic, code, mem_flags=0):
        global header_output
        global decoder_output
        global exec_output
        global microopClasses
        Name = mnemonic
        name = mnemonic.lower()

        # Build up the all register version of this micro op
        iop = InstObjParams(name, Name, 'X86ISA::LdStOp',
                {"code": code,
                 "ea_code": calculateEA,
                 "mem_flags": mem_flags})
        header_output += MicroLdStOpDeclare.subst(iop)
        decoder_output += MicroLdStOpConstructor.subst(iop)
        exec_output += MicroStoreExecute.subst(iop)
        exec_output += MicroStoreInitiateAcc.subst(iop)
        exec_output += MicroStoreCompleteAcc.subst(iop)

        class StoreOp(LdStOp):
            def __init__(self, data, segment, addr, disp = 0,
                    dataSize="env.dataSize", addressSize="env.addressSize"):
                super(StoreOp, self).__init__(data, segment,
                        addr, disp, dataSize, addressSize)
                self.className = Name
                self.mnemonic = name

        microopClasses[name] = StoreOp

    defineMicroStoreOp('St', 'Mem = Data;')
    defineMicroStoreOp('Stfp', 'Mem = FpData.uqw;')
    defineMicroStoreOp('Stupd', '''
            Mem = Data;
            Base = merge(Base, EA - SegBase, addressSize);
            ''');


    iop = InstObjParams("lea", "Lea", 'X86ISA::LdStOp',
            {"code": "Data = merge(Data, EA, dataSize);",
             "ea_code": calculateEA,
             "mem_flags": 0})
    header_output += MicroLeaDeclare.subst(iop)
    decoder_output += MicroLdStOpConstructor.subst(iop)
    exec_output += MicroLeaExecute.subst(iop)

    class LeaOp(LdStOp):
        def __init__(self, data, segment, addr, disp = 0,
                dataSize="env.dataSize", addressSize="env.addressSize"):
            super(LeaOp, self).__init__(data, segment,
                    addr, disp, dataSize, addressSize)
            self.className = "Lea"
            self.mnemonic = "lea"

    microopClasses["lea"] = LeaOp


    iop = InstObjParams("tia", "Tia", 'X86ISA::LdStOp',
            {"code": "xc->demapPage(EA, 0);",
             "ea_code": calculateEA,
             "mem_flags": 0})
    header_output += MicroLeaDeclare.subst(iop)
    decoder_output += MicroLdStOpConstructor.subst(iop)
    exec_output += MicroLeaExecute.subst(iop)

    class TiaOp(LdStOp):
        def __init__(self, segment, addr, disp = 0,
                dataSize="env.dataSize", addressSize="env.addressSize"):
            super(TiaOp, self).__init__("NUM_INTREGS", segment,
                    addr, disp, dataSize, addressSize)
            self.className = "Tia"
            self.mnemonic = "tia"

    microopClasses["tia"] = TiaOp

    iop = InstObjParams("cda", "Cda", 'X86ISA::LdStOp',
            {"code": '''
            Addr paddr;
            fault = xc->translateDataWriteAddr(EA, paddr,
                dataSize, (1 << segment));
            ''',
            "ea_code": calculateEA})
    header_output += MicroLeaDeclare.subst(iop)
    decoder_output += MicroLdStOpConstructor.subst(iop)
    exec_output += MicroLeaExecute.subst(iop)

    class CdaOp(LdStOp):
        def __init__(self, segment, addr, disp = 0,
                dataSize="env.dataSize", addressSize="env.addressSize"):
            super(CdaOp, self).__init__("NUM_INTREGS", segment,
                    addr, disp, dataSize, addressSize)
            self.className = "Cda"
            self.mnemonic = "cda"

    microopClasses["cda"] = CdaOp
}};