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// -*- mode:c++ -*-
// Copyright (c) 2007 The Hewlett-Packard Development Company
// All rights reserved.
//
// The license below extends only to copyright in the software and shall
// not be construed as granting a license to any other intellectual
// property including but not limited to intellectual property relating
// to a hardware implementation of the functionality of the software
// licensed hereunder. You may use the software subject to the license
// terms below provided that you ensure that this notice is replicated
// unmodified and in its entirety in all distributions of the software,
// modified or unmodified, in source code or in binary form.
//
// 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
//////////////////////////////////////////////////////////////////////////////
//
// Architecture independent
//
// Execute method for macroops.
def template MacroExecPanic {{
Fault execute(%(CPU_exec_context)s *, Trace::InstRecord *) const
{
panic("Tried to execute macroop directly!");
return NoFault;
}
}};
output header {{
// Base class for combinationally generated macroops
class Macroop : public X86ISA::MacroopBase
{
public:
Macroop(const char *mnem, ExtMachInst _machInst,
uint32_t _numMicroops, X86ISA::EmulEnv _env)
: MacroopBase(mnem, _machInst, _numMicroops, _env)
{}
%(MacroExecPanic)s
};
}};
//////////////////////////////////////////////////////////////////////////////
//
// X86 specific
//
//////////////////////////////////////////////////////////////////////////////
// Basic instruction class declaration template.
def template MacroDeclare {{
namespace X86Macroop
{
/**
* Static instruction class for "%(mnemonic)s".
*/
class %(class_name)s : public %(base_class)s
{
private:
%(declareLabels)s
public:
// Constructor.
%(class_name)s(ExtMachInst machInst, X86ISA::EmulEnv _env);
std::string
generateDisassembly(Addr pc, const SymbolTable *symtab) const;
};
}
}};
def template MacroDisassembly {{
std::string
X86Macroop::%(class_name)s::generateDisassembly(Addr pc,
const SymbolTable *symtab) const
{
std::stringstream out;
out << mnemonic << "\t";
int regSize = %(regSize)s;
%(disassembly)s
// Shut up gcc.
regSize = regSize;
return out.str();
}
}};
// Basic instruction class constructor template.
def template MacroConstructor {{
inline X86Macroop::%(class_name)s::%(class_name)s(
ExtMachInst machInst, EmulEnv _env)
: %(base_class)s("%(mnemonic)s", machInst, %(num_microops)s, _env)
{
%(adjust_env)s;
%(adjust_imm)s;
%(adjust_disp)s;
%(init_env)s;
%(constructor)s;
const char *macrocodeBlock = "%(class_name)s";
//alloc_microops is the code that sets up the microops
//array in the parent class.
%(alloc_microops)s;
}
}};
let {{
from micro_asm import Combinational_Macroop, Rom_Macroop
class X86Macroop(Combinational_Macroop):
def add_microop(self, mnemonic, microop):
microop.mnemonic = mnemonic
microop.micropc = len(self.microops)
self.microops.append(microop)
def setAdjustEnv(self, val):
self.adjust_env = val
def adjustImm(self, val):
self.adjust_imm += val
def adjustDisp(self, val):
self.adjust_disp += val
def serializing(self):
self.serializing = True
def function_call(self):
self.function_call = True
def function_return(self):
self.function_return = True
def __init__(self, name):
super(X86Macroop, self).__init__(name)
self.directives = {
"adjust_env" : self.setAdjustEnv,
"adjust_imm" : self.adjustImm,
"adjust_disp" : self.adjustDisp,
"serializing" : self.serializing,
"function_call" : self.function_call,
"function_return" : self.function_return
}
self.declared = False
self.adjust_env = ""
self.init_env = ""
self.adjust_imm = '''
uint64_t adjustedImm = IMMEDIATE;
//This is to pacify gcc in case the immediate isn't used.
adjustedImm = adjustedImm;
'''
self.adjust_disp = '''
uint64_t adjustedDisp = DISPLACEMENT;
//This is to pacify gcc in case the displacement isn't used.
adjustedDisp = adjustedDisp;
'''
self.serializing = False
self.function_call = False
self.function_return = False
def getAllocator(self, env):
return "new X86Macroop::%s(machInst, %s)" % \
(self.name, env.getAllocator())
def getMnemonic(self):
mnemonic = self.name.lower()
mnemonic = re.match(r'[^_]*', mnemonic).group(0)
return mnemonic
def getDeclaration(self):
#FIXME This first parameter should be the mnemonic. I need to
#write some code which pulls that out
declareLabels = ""
for (label, microop) in self.labels.items():
declareLabels += "const static uint64_t label_%s = %d;\n" \
% (label, microop.micropc)
iop = InstObjParams(self.getMnemonic(), self.name, "Macroop",
{"code" : "",
"declareLabels" : declareLabels
})
return MacroDeclare.subst(iop);
def getDefinition(self, env):
#FIXME This first parameter should be the mnemonic. I need to
#write some code which pulls that out
numMicroops = len(self.microops)
allocMicroops = ''
micropc = 0
for op in self.microops:
flags = ["IsMicroop"]
if micropc == numMicroops - 1:
flags.append("IsLastMicroop")
if self.serializing:
flags.append("IsSerializing")
flags.append("IsSerializeAfter")
if self.function_call:
flags.append("IsCall")
if self.function_return:
flags.append("IsReturn")
else:
flags.append("IsDelayedCommit")
if micropc == 0:
flags.append("IsFirstMicroop")
allocMicroops += \
"microops[%d] = %s;\n" % \
(micropc, op.getAllocator(flags))
micropc += 1
if env.useStackSize:
useStackSize = "true"
else:
useStackSize = "false"
if env.memoryInst:
memoryInst = "true"
else:
memoryInst = "false"
regSize = '''(%s || (env.base == INTREG_RSP && %s) ?
env.stackSize :
env.dataSize)''' % (useStackSize, memoryInst)
iop = InstObjParams(self.getMnemonic(), self.name, "Macroop",
{"code" : "", "num_microops" : numMicroops,
"alloc_microops" : allocMicroops,
"adjust_env" : self.adjust_env,
"adjust_imm" : self.adjust_imm,
"adjust_disp" : self.adjust_disp,
"disassembly" : env.disassembly,
"regSize" : regSize,
"init_env" : self.initEnv})
return MacroConstructor.subst(iop) + \
MacroDisassembly.subst(iop);
}};
let {{
class EmulEnv(object):
def __init__(self):
self.reg = "0"
self.regUsed = False
self.regm = "0"
self.regmUsed = False
self.seg = "SEGMENT_REG_DS"
self.size = None
self.addressSize = "ADDRSIZE"
self.dataSize = "OPSIZE"
self.stackSize = "STACKSIZE"
self.doModRM = False
self.disassembly = ""
self.firstArgument = True
self.useStackSize = False
self.memoryInst = False
def addToDisassembly(self, code):
if not self.firstArgument:
self.disassembly += "out << \", \";\n"
self.firstArgument = False
self.disassembly += code
def getAllocator(self):
if self.size == 'b':
self.dataSize = 1
elif self.size == 'd':
self.dataSize = 4
#This is for "double plus" which is normally a double word unless
#the REX W bit is set, in which case it's a quad word. It's used
#for some SSE instructions.
elif self.size == 'dp':
self.dataSize = "(REX_W ? 8 : 4)"
elif self.size == 'q':
self.dataSize = 8
elif self.size == 'v':
self.dataSize = "OPSIZE"
elif self.size == 'w':
self.dataSize = 2
elif self.size == 'z':
self.dataSize = "((OPSIZE == 8) ? 4 : OPSIZE)"
elif self.size:
raise Exception, "Unrecognized size type %s!" % self.size
return '''EmulEnv(%(reg)s,
%(regm)s,
%(dataSize)s,
%(addressSize)s,
%(stackSize)s)''' % \
self.__dict__
def addReg(self, reg):
if not self.regUsed:
self.reg = reg
self.regUsed = True
elif not self.regmUsed:
self.regm = reg
self.regmUsed = True
else:
raise Exception, "EmulEnv is out of register specialization spots."
def setSize(self, size):
if not self.size:
self.size = size
else:
if self.size != size:
raise Exception, "Conflicting register sizes %s and %s!" %\
(self.size, size)
}};
let {{
doModRMString = "env.doModRM(machInst);\n"
noModRMString = "env.setSeg(machInst);\n"
def genMacroop(Name, env):
blocks = OutputBlocks()
if not macroopDict.has_key(Name):
raise Exception, "Unrecognized instruction: %s" % Name
macroop = macroopDict[Name]
if not macroop.declared:
if env.doModRM:
macroop.initEnv = doModRMString
else:
macroop.initEnv = noModRMString
blocks.header_output = macroop.getDeclaration()
blocks.decoder_output = macroop.getDefinition(env)
macroop.declared = True
blocks.decode_block = "return %s;\n" % macroop.getAllocator(env)
return blocks
}};
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