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|
// Copyright (c) 2007 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
//////////////////////////////////////////////////////////////////////////
//
// RegOp Microop templates
//
//////////////////////////////////////////////////////////////////////////
def template MicroRegOpExecute {{
Fault %(class_name)s::execute(%(CPU_exec_context)s *xc,
Trace::InstRecord *traceData) const
{
Fault fault = NoFault;
DPRINTF(X86, "The data size is %d\n", dataSize);
%(op_decl)s;
%(op_rd)s;
if(%(cond_check)s)
{
%(code)s;
%(flag_code)s;
}
else
{
%(else_code)s;
}
//Write the resulting state to the execution context
if(fault == NoFault)
{
%(op_wb)s;
}
return fault;
}
}};
def template MicroRegOpImmExecute {{
Fault %(class_name)s::execute(%(CPU_exec_context)s *xc,
Trace::InstRecord *traceData) const
{
Fault fault = NoFault;
%(op_decl)s;
%(op_rd)s;
if(%(cond_check)s)
{
%(code)s;
%(flag_code)s;
}
else
{
%(else_code)s;
}
//Write the resulting state to the execution context
if(fault == NoFault)
{
%(op_wb)s;
}
return fault;
}
}};
def template MicroRegOpDeclare {{
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,
RegIndex _src1, RegIndex _src2, RegIndex _dest,
uint8_t _dataSize, uint16_t _ext);
%(class_name)s(ExtMachInst _machInst,
const char * instMnem,
RegIndex _src1, RegIndex _src2, RegIndex _dest,
uint8_t _dataSize, uint16_t _ext);
%(BasicExecDeclare)s
};
}};
def template MicroRegOpImmDeclare {{
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,
RegIndex _src1, uint16_t _imm8, RegIndex _dest,
uint8_t _dataSize, uint16_t _ext);
%(class_name)s(ExtMachInst _machInst,
const char * instMnem,
RegIndex _src1, uint16_t _imm8, RegIndex _dest,
uint8_t _dataSize, uint16_t _ext);
%(BasicExecDeclare)s
};
}};
def template MicroRegOpConstructor {{
inline void %(class_name)s::buildMe()
{
%(constructor)s;
}
inline %(class_name)s::%(class_name)s(
ExtMachInst machInst, const char * instMnem,
RegIndex _src1, RegIndex _src2, RegIndex _dest,
uint8_t _dataSize, uint16_t _ext) :
%(base_class)s(machInst, "%(mnemonic)s", instMnem,
false, false, false, false,
_src1, _src2, _dest, _dataSize, _ext,
%(op_class)s)
{
buildMe();
}
inline %(class_name)s::%(class_name)s(
ExtMachInst machInst, const char * instMnem,
bool isMicro, bool isDelayed, bool isFirst, bool isLast,
RegIndex _src1, RegIndex _src2, RegIndex _dest,
uint8_t _dataSize, uint16_t _ext) :
%(base_class)s(machInst, "%(mnemonic)s", instMnem,
isMicro, isDelayed, isFirst, isLast,
_src1, _src2, _dest, _dataSize, _ext,
%(op_class)s)
{
buildMe();
}
}};
def template MicroRegOpImmConstructor {{
inline void %(class_name)s::buildMe()
{
%(constructor)s;
}
inline %(class_name)s::%(class_name)s(
ExtMachInst machInst, const char * instMnem,
RegIndex _src1, uint16_t _imm8, RegIndex _dest,
uint8_t _dataSize, uint16_t _ext) :
%(base_class)s(machInst, "%(mnemonic)s", instMnem,
false, false, false, false,
_src1, _imm8, _dest, _dataSize, _ext,
%(op_class)s)
{
buildMe();
}
inline %(class_name)s::%(class_name)s(
ExtMachInst machInst, const char * instMnem,
bool isMicro, bool isDelayed, bool isFirst, bool isLast,
RegIndex _src1, uint16_t _imm8, RegIndex _dest,
uint8_t _dataSize, uint16_t _ext) :
%(base_class)s(machInst, "%(mnemonic)s", instMnem,
isMicro, isDelayed, isFirst, isLast,
_src1, _imm8, _dest, _dataSize, _ext,
%(op_class)s)
{
buildMe();
}
}};
let {{
# Make these empty strings so that concatenating onto
# them will always work.
header_output = ""
decoder_output = ""
exec_output = ""
immTemplates = (
MicroRegOpImmDeclare,
MicroRegOpImmConstructor,
MicroRegOpImmExecute)
regTemplates = (
MicroRegOpDeclare,
MicroRegOpConstructor,
MicroRegOpExecute)
class RegOpMeta(type):
def buildCppClasses(self, name, Name, suffix, \
code, flag_code, cond_check, else_code):
# Globals to stick the output in
global header_output
global decoder_output
global exec_output
# Stick all the code together so it can be searched at once
allCode = "|".join((code, flag_code, cond_check, else_code))
# If op2 is used anywhere, make register and immediate versions
# of this code.
matcher = re.compile("op2(?P<typeQual>\\.\\w+)?")
if matcher.search(allCode):
self.buildCppClasses(name, Name, suffix,
matcher.sub("psrc2", code),
matcher.sub("psrc2", flag_code),
matcher.sub("psrc2", cond_check),
matcher.sub("psrc2", else_code))
self.buildCppClasses(name + "i", Name, suffix + "Imm",
matcher.sub("imm8", code),
matcher.sub("imm8", flag_code),
matcher.sub("imm8", cond_check),
matcher.sub("imm8", else_code))
return
# If there's something optional to do with flags, generate
# a version without it and fix up this version to use it.
if flag_code is not "" or cond_check is not "true":
self.buildCppClasses(name, Name, suffix,
code, "", "true", else_code)
suffix = "Flags" + suffix
# If psrc1 or psrc2 is used, we need to actually insert code to
# compute it.
matcher = re.compile("(?<!\w)psrc1(?!\w)")
if matcher.search(allCode):
code = "IntReg psrc1 = pick(SrcReg1, 0, dataSize);" + code
matcher = re.compile("(?<!\w)psrc2(?!\w)")
if matcher.search(allCode):
code = "IntReg psrc2 = pick(SrcReg2, 1, dataSize);" + code
base = "X86ISA::RegOp"
# If imm8 shows up in the code, use the immediate templates, if
# not, hopefully the register ones will be correct.
templates = regTemplates
matcher = re.compile("(?<!\w)imm8(?!\w)")
if matcher.search(allCode):
base += "Imm"
templates = immTemplates
# Get everything ready for the substitution
iop = InstObjParams(name, Name + suffix, base,
{"code" : code,
"flag_code" : flag_code,
"cond_check" : cond_check,
"else_code" : else_code})
# Generate the actual code (finally!)
header_output += templates[0].subst(iop)
decoder_output += templates[1].subst(iop)
exec_output += templates[2].subst(iop)
def __new__(mcls, Name, bases, dict):
abstract = False
name = Name.lower()
if "abstract" in dict:
abstract = dict['abstract']
del dict['abstract']
cls = super(RegOpMeta, mcls).__new__(mcls, Name, bases, dict)
if not abstract:
cls.className = Name
cls.base_mnemonic = name
code = cls.code
flag_code = cls.flag_code
cond_check = cls.cond_check
else_code = cls.else_code
# Set up the C++ classes
mcls.buildCppClasses(cls, name, Name, "",
code, flag_code, cond_check, else_code)
# Hook into the microassembler dict
global microopClasses
microopClasses[name] = cls
allCode = "|".join((code, flag_code, cond_check, else_code))
# If op2 is used anywhere, make register and immediate versions
# of this code.
matcher = re.compile("op2(?P<typeQual>\\.\\w+)?")
if matcher.search(allCode):
microopClasses[name + 'i'] = cls
return cls
class RegOp(X86Microop):
__metaclass__ = RegOpMeta
# This class itself doesn't act as a microop
abstract = True
# Default template parameter values
flag_code = ""
cond_check = "true"
else_code = ";"
def __init__(self, dest, src1, op2, flags = None, dataSize = "env.dataSize"):
self.dest = dest
self.src1 = src1
self.op2 = op2
self.flags = flags
self.dataSize = dataSize
if flags is None:
self.ext = 0
else:
if not isinstance(flags, (list, tuple)):
raise Exception, "flags must be a list or tuple of flags"
self.ext = " | ".join(flags)
self.className += "Flags"
def getAllocator(self, *microFlags):
className = self.className
if self.mnemonic == self.base_mnemonic + 'i':
className += "Imm"
allocator = '''new %(class_name)s(machInst, mnemonic
%(flags)s, %(src1)s, %(op2)s, %(dest)s,
%(dataSize)s, %(ext)s)''' % {
"class_name" : className,
"flags" : self.microFlagsText(microFlags),
"src1" : self.src1, "op2" : self.op2,
"dest" : self.dest,
"dataSize" : self.dataSize,
"ext" : self.ext}
return allocator
class LogicRegOp(RegOp):
abstract = True
flag_code = '''
//Don't have genFlags handle the OF or CF bits
uint64_t mask = CFBit | OFBit;
ccFlagBits = genFlags(ccFlagBits, ext & ~mask, DestReg, psrc1, op2);
//If a logic microop wants to set these, it wants to set them to 0.
ccFlagBits &= ~(CFBit & ext);
ccFlagBits &= ~(OFBit & ext);
'''
class FlagRegOp(RegOp):
abstract = True
flag_code = \
"ccFlagBits = genFlags(ccFlagBits, ext, DestReg, psrc1, op2);"
class SubRegOp(RegOp):
abstract = True
flag_code = \
"ccFlagBits = genFlags(ccFlagBits, ext, DestReg, psrc1, ~op2, true);"
class CondRegOp(RegOp):
abstract = True
cond_check = "checkCondition(ccFlagBits)"
class Add(FlagRegOp):
code = 'DestReg = merge(DestReg, psrc1 + op2, dataSize);'
class Or(LogicRegOp):
code = 'DestReg = merge(DestReg, psrc1 | op2, dataSize);'
class Adc(FlagRegOp):
code = '''
CCFlagBits flags = ccFlagBits;
DestReg = merge(DestReg, psrc1 + op2 + flags.CF, dataSize);
'''
class Sbb(SubRegOp):
code = '''
CCFlagBits flags = ccFlagBits;
DestReg = merge(DestReg, psrc1 - op2 - flags.CF, dataSize);
'''
class And(LogicRegOp):
code = 'DestReg = merge(DestReg, psrc1 & op2, dataSize)'
class Sub(SubRegOp):
code = 'DestReg = merge(DestReg, psrc1 - op2, dataSize)'
class Xor(LogicRegOp):
code = 'DestReg = merge(DestReg, psrc1 ^ op2, dataSize)'
class Mul1s(FlagRegOp):
code = '''
int signPos = (dataSize * 8) / 2 - 1;
IntReg srcVal1 = psrc1 | (-bits(psrc1, signPos) << signPos);
IntReg srcVal2 = op2 | (-bits(psrc1, signPos) << signPos);
DestReg = merge(DestReg, srcVal1 * srcVal2, dataSize)
'''
class Mul1u(FlagRegOp):
code = '''
int halfSize = (dataSize * 8) / 2;
IntReg srcVal1 = psrc1 & mask(halfSize);
IntReg srcVal2 = op2 & mask(halfSize);
DestReg = merge(DestReg, srcVal1 * srcVal2, dataSize)
'''
class Mulel(FlagRegOp):
code = 'DestReg = merge(DestReg, psrc1 * op2, dataSize);'
class Muleh(FlagRegOp):
code = '''
int halfSize = (dataSize * 8) / 2;
uint64_t psrc1_h = psrc1 >> halfSize;
uint64_t psrc1_l = psrc1 & mask(halfSize);
uint64_t psrc2_h = op2 >> halfSize;
uint64_t psrc2_l = op2 & mask(halfSize);
uint64_t result =
((psrc1_l * psrc2_h) >> halfSize) +
((psrc1_h * psrc2_l) >> halfSize) +
psrc1_h * psrc2_h;
DestReg = merge(DestReg, result, dataSize);
'''
class Div1(FlagRegOp):
code = '''
int halfSize = (dataSize * 8) / 2;
IntReg quotient = (psrc1 / op2) & mask(halfSize);
IntReg remainder = (psrc1 % op2) & mask(halfSize);
IntReg result = quotient | (remainder << halfSize);
DestReg = merge(DestReg, result, dataSize);
'''
class Divq(FlagRegOp):
code = 'DestReg = merge(DestReg, psrc1 / op2, dataSize);'
class Divr(FlagRegOp):
code = 'DestReg = merge(DestReg, psrc1 % op2, dataSize);'
class Mov(CondRegOp):
code = 'DestReg = merge(SrcReg1, op2, dataSize)'
else_code = 'DestReg=DestReg;'
class Movfp(CondRegOp):
code = 'FpDestReg = FpSrcReg2'
else_code = 'FpDestReg = FpDestReg;'
# Shift instructions
class Sll(FlagRegOp):
code = '''
uint8_t shiftAmt = (op2 & ((dataSize == 8) ? mask(6) : mask(5)));
DestReg = merge(DestReg, psrc1 << shiftAmt, dataSize);
'''
class Srl(FlagRegOp):
code = '''
uint8_t shiftAmt = (op2 & ((dataSize == 8) ? mask(6) : mask(5)));
// Because what happens to the bits shift -in- on a right shift
// is not defined in the C/C++ standard, we have to mask them out
// to be sure they're zero.
uint64_t logicalMask = mask(dataSize * 8 - shiftAmt);
DestReg = merge(DestReg, (psrc1 >> shiftAmt) & logicalMask, dataSize);
'''
class Sra(FlagRegOp):
code = '''
uint8_t shiftAmt = (op2 & ((dataSize == 8) ? mask(6) : mask(5)));
// Because what happens to the bits shift -in- on a right shift
// is not defined in the C/C++ standard, we have to sign extend
// them manually to be sure.
uint64_t arithMask =
-bits(psrc1, dataSize * 8 - 1) << (dataSize * 8 - shiftAmt);
DestReg = merge(DestReg, (psrc1 >> shiftAmt) | arithMask, dataSize);
'''
class Ror(FlagRegOp):
code = '''
uint8_t shiftAmt =
(op2 & ((dataSize == 8) ? mask(6) : mask(5)));
if(shiftAmt)
{
uint64_t top = psrc1 << (dataSize * 8 - shiftAmt);
uint64_t bottom = bits(psrc1, dataSize * 8, shiftAmt);
DestReg = merge(DestReg, top | bottom, dataSize);
}
else
DestReg = DestReg;
'''
class Rcr(FlagRegOp):
code = '''
uint8_t shiftAmt =
(op2 & ((dataSize == 8) ? mask(6) : mask(5)));
if(shiftAmt)
{
CCFlagBits flags = ccFlagBits;
uint64_t top = flags.CF << (dataSize * 8 - shiftAmt);
if(shiftAmt > 1)
top |= psrc1 << (dataSize * 8 - shiftAmt - 1);
uint64_t bottom = bits(psrc1, dataSize * 8, shiftAmt);
DestReg = merge(DestReg, top | bottom, dataSize);
}
else
DestReg = DestReg;
'''
class Rol(FlagRegOp):
code = '''
uint8_t shiftAmt =
(op2 & ((dataSize == 8) ? mask(6) : mask(5)));
if(shiftAmt)
{
uint64_t top = psrc1 << shiftAmt;
uint64_t bottom =
bits(psrc1, dataSize * 8 - 1, dataSize * 8 - shiftAmt);
DestReg = merge(DestReg, top | bottom, dataSize);
}
else
DestReg = DestReg;
'''
class Rcl(FlagRegOp):
code = '''
uint8_t shiftAmt =
(op2 & ((dataSize == 8) ? mask(6) : mask(5)));
if(shiftAmt)
{
CCFlagBits flags = ccFlagBits;
uint64_t top = psrc1 << shiftAmt;
uint64_t bottom = flags.CF << (shiftAmt - 1);
if(shiftAmt > 1)
bottom |=
bits(psrc1, dataSize * 8 - 1,
dataSize * 8 - shiftAmt + 1);
DestReg = merge(DestReg, top | bottom, dataSize);
}
else
DestReg = DestReg;
'''
class WrRegOp(RegOp):
abstract = True
def __init__(self, src1, src2, flags=None, dataSize="env.dataSize"):
super(WrRegOp, self).__init__("NUM_INTREGS", src1, src2, flags, dataSize)
class Wrip(WrRegOp, CondRegOp):
code = 'RIP = psrc1 + op2'
else_code="RIP = RIP;"
class Br(WrRegOp, CondRegOp):
code = 'nuIP = psrc1 + op2;'
else_code='nuIP = nuIP;'
class Wruflags(WrRegOp):
code = 'ccFlagBits = psrc1 ^ op2'
class RdRegOp(RegOp):
abstract = True
def __init__(self, dest, src1 = "NUM_INTREGS", dataSize="env.dataSize"):
super(RdRegOp, self).__init__(dest, src1, "NUM_INTREGS", None, dataSize)
class Rdip(RdRegOp):
code = 'DestReg = RIP'
class Ruflags(RdRegOp):
code = 'DestReg = ccFlagBits'
class Ruflag(RegOp):
code = '''
int flag = bits(ccFlagBits, imm8 + 0*psrc1);
DestReg = merge(DestReg, flag, dataSize);
ccFlagBits = (flag == 0) ? (ccFlagBits | EZFBit) :
(ccFlagBits & ~EZFBit);
'''
def __init__(self, dest, imm, flags=None, \
dataSize="env.dataSize"):
super(Ruflag, self).__init__(dest, \
"NUM_INTREGS", imm, flags, dataSize)
class Sext(RegOp):
code = '''
IntReg val = psrc1;
int sign_bit = bits(val, imm8-1, imm8-1);
uint64_t maskVal = mask(imm8);
val = sign_bit ? (val | ~maskVal) : (val & maskVal);
DestReg = merge(DestReg, val, dataSize);
'''
class Zext(RegOp):
code = 'DestReg = bits(psrc1, imm8-1, 0);'
# Conversion microops
class ConvOp(RegOp):
abstract = True
def __init__(self, dest, src1):
super(ConvOp, self).__init__(dest, src1, "NUM_INTREGS")
#FIXME This needs to always use 32 bits unless REX.W is present
class cvtf_i2d(ConvOp):
code = 'FpDestReg = psrc1;'
class cvtf_i2d_hi(ConvOp):
code = 'FpDestReg = bits(SrcReg1, 63, 32);'
class cvtf_d2i(ConvOp):
code = '''
int64_t intSrcReg1 = static_cast<int64_t>(FpSrcReg1);
DestReg = merge(DestReg, intSrcReg1, dataSize);
'''
}};
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