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// -*- mode:c++ -*-
// Copyright (c) 2010-2013 ARM Limited
// 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
// Giacomo Gabrielli
def format ArmERet() {{
decode_block = "return new Eret(machInst);"
}};
def format Svc() {{
decode_block = "return new Svc(machInst, bits(machInst, 23, 0));"
}};
def format ArmSmcHyp() {{
decode_block = '''
{
if (bits(machInst, 21))
{
return new Smc(machInst);
} else {
uint32_t imm16 = (bits(machInst, 19, 8) << 4) |
(bits(machInst, 3, 0) << 0);
return new Hvc(machInst, imm16);
}
}
'''
}};
def format ArmMsrMrs() {{
decode_block = '''
{
const uint8_t byteMask = bits(machInst, 19, 16);
const uint8_t sysM = byteMask | (bits(machInst, 8) << 4);
const IntRegIndex rn = (IntRegIndex)(uint32_t)bits(machInst, 3, 0);
const IntRegIndex rd = (IntRegIndex)(uint32_t)bits(machInst, 15, 12);
const uint32_t opcode = bits(machInst, 24, 21);
const bool useImm = bits(machInst, 25);
const bool r = bits(machInst, 22);
const bool isBanked = bits(machInst, 9);
const uint32_t unrotated = bits(machInst, 7, 0);
const uint32_t rotation = (bits(machInst, 11, 8) << 1);
const uint32_t imm = rotate_imm(unrotated, rotation);
switch (opcode) {
case 0x8:
if (isBanked) {
return new MrsBankedReg(machInst, rd, sysM, r!=0);
} else {
return new MrsCpsr(machInst, rd);
}
case 0x9:
if (useImm) {
return new MsrCpsrImm(machInst, imm, byteMask);
} else {
if (isBanked) {
return new MsrBankedReg(machInst, rn, sysM, r!=0);
} else {
return new MsrCpsrReg(machInst, rn, byteMask);
}
}
case 0xa:
if (isBanked) {
return new MrsBankedReg(machInst, rd, sysM, r!=0);
} else {
return new MrsSpsr(machInst, rd);
}
case 0xb:
if (useImm) {
return new MsrSpsrImm(machInst, imm, byteMask);
} else {
if (isBanked) {
return new MsrBankedReg(machInst, rn, sysM, r!=0);
} else {
return new MsrSpsrReg(machInst, rn, byteMask);
}
}
default:
return new Unknown(machInst);
}
}
'''
}};
let {{
header_output = '''
StaticInstPtr
decodeMcrMrc14(ExtMachInst machInst);
'''
decoder_output = '''
StaticInstPtr
decodeMcrMrc14(ExtMachInst machInst)
{
const uint32_t opc1 = bits(machInst, 23, 21);
const uint32_t crn = bits(machInst, 19, 16);
const uint32_t opc2 = bits(machInst, 7, 5);
const uint32_t crm = bits(machInst, 3, 0);
const MiscRegIndex miscReg = decodeCP14Reg(crn, opc1, crm, opc2);
const IntRegIndex rt = (IntRegIndex)(uint32_t)bits(machInst, 15, 12);
const bool isRead = bits(machInst, 20);
switch (miscReg) {
case MISCREG_NOP:
return new NopInst(machInst);
case MISCREG_CP14_UNIMPL:
return new FailUnimplemented(isRead ? "mrc unknown" : "mcr unknown",
machInst,
csprintf("miscreg crn:%d opc1:%d crm:%d opc2:%d %s unknown",
crn, opc1, crm, opc2, isRead ? "read" : "write"));
default:
uint32_t iss = mcrMrcIssBuild(isRead, crm, rt, crn, opc1, opc2);
if (isRead) {
return new Mrc14(machInst, rt, (IntRegIndex)miscReg, iss);
} else {
return new Mcr14(machInst, (IntRegIndex)miscReg, rt, iss);
}
}
}
'''
}};
def format McrMrc14() {{
decode_block = '''
return decodeMcrMrc14(machInst);
'''
}};
let {{
header_output = '''
StaticInstPtr decodeMcrMrc14(ExtMachInst machInst);
StaticInstPtr decodeMcrMrc15(ExtMachInst machInst);
'''
decoder_output = '''
StaticInstPtr
decodeMcrMrc15(ExtMachInst machInst)
{
const uint32_t opc1 = bits(machInst, 23, 21);
const uint32_t crn = bits(machInst, 19, 16);
const uint32_t opc2 = bits(machInst, 7, 5);
const uint32_t crm = bits(machInst, 3, 0);
const MiscRegIndex miscReg = decodeCP15Reg(crn, opc1, crm, opc2);
const IntRegIndex rt = (IntRegIndex)(uint32_t)bits(machInst, 15, 12);
const bool isRead = bits(machInst, 20);
uint32_t iss = mcrMrcIssBuild(isRead, crm, rt, crn, opc1, opc2);
switch (miscReg) {
case MISCREG_NOP:
return new NopInst(machInst);
case MISCREG_CP15_UNIMPL:
return new FailUnimplemented(isRead ? "mrc unkown" : "mcr unkown",
machInst,
csprintf("miscreg crn:%d opc1:%d crm:%d opc2:%d %s unknown",
crn, opc1, crm, opc2, isRead ? "read" : "write"));
case MISCREG_DCCMVAC:
return new FlushPipeInst(
isRead ? "mrc dccmvac" : "mcr dccmvac", machInst);
case MISCREG_CP15ISB:
return new Isb(machInst, iss);
case MISCREG_CP15DSB:
return new Dsb(machInst, iss);
case MISCREG_CP15DMB:
return new Dmb(machInst, iss);
default:
if (miscRegInfo[miscReg][MISCREG_WARN_NOT_FAIL]) {
std::string full_mnem = csprintf("%s %s",
isRead ? "mrc" : "mcr", miscRegName[miscReg]);
warn("\\tinstruction '%s' unimplemented\\n", full_mnem);
// Remove the warn flag and set the implemented flag. This
// prevents the instruction warning a second time, it also
// means the instruction is actually generated. Actually
// creating the instruction to access an register that isn't
// implemented sounds a bit silly, but its required to get
// the correct behaviour for hyp traps and undef exceptions.
miscRegInfo[miscReg][MISCREG_IMPLEMENTED] = true;
miscRegInfo[miscReg][MISCREG_WARN_NOT_FAIL] = false;
}
if (miscRegInfo[miscReg][MISCREG_IMPLEMENTED]) {
if (isRead)
return new Mrc15(machInst, rt, miscReg, iss);
return new Mcr15(machInst, miscReg, rt, iss);
} else {
return new FailUnimplemented(isRead ? "mrc" : "mcr", machInst,
csprintf("%s %s", isRead ? "mrc" : "mcr",
miscRegName[miscReg]));
}
}
}
'''
}};
def format McrMrc15() {{
decode_block = '''
return decodeMcrMrc15(machInst);
'''
}};
let {{
header_output = '''
StaticInstPtr
decodeMcrrMrrc15(ExtMachInst machInst);
'''
decoder_output = '''
StaticInstPtr
decodeMcrrMrrc15(ExtMachInst machInst)
{
const uint32_t crm = bits(machInst, 3, 0);
const uint32_t opc1 = bits(machInst, 7, 4);
const MiscRegIndex miscReg = decodeCP15Reg64(crm, opc1);
const IntRegIndex rt = (IntRegIndex) (uint32_t) bits(machInst, 15, 12);
const IntRegIndex rt2 = (IntRegIndex) (uint32_t) bits(machInst, 19, 16);
const bool isRead = bits(machInst, 20);
switch (miscReg) {
case MISCREG_CP15_UNIMPL:
return new FailUnimplemented(isRead ? "mrc" : "mcr", machInst,
csprintf("miscreg crm:%d opc1:%d 64-bit %s unknown",
crm, opc1, isRead ? "read" : "write"));
default:
if (miscRegInfo[miscReg][MISCREG_WARN_NOT_FAIL]) {
std::string full_mnem = csprintf("%s %s",
isRead ? "mrrc" : "mcrr", miscRegName[miscReg]);
warn("\\tinstruction '%s' unimplemented\\n", full_mnem);
// Remove the warn flag and set the implemented flag. This
// prevents the instruction warning a second time, it also
// means the instruction is actually generated. Actually
// creating the instruction to access an register that isn't
// implemented sounds a bit silly, but its required to get
// the correct behaviour for hyp traps and undef exceptions.
miscRegInfo[miscReg][MISCREG_IMPLEMENTED] = true;
miscRegInfo[miscReg][MISCREG_WARN_NOT_FAIL] = false;
}
if (miscRegInfo[miscReg][MISCREG_IMPLEMENTED]) {
uint32_t iss = mcrrMrrcIssBuild(isRead, crm, rt, rt2, opc1);
if (isRead)
return new Mrrc15(machInst, (IntRegIndex) miscReg, rt2, rt, iss);
return new Mcrr15(machInst, rt2, rt, (IntRegIndex) miscReg, iss);
} else {
return new FailUnimplemented(isRead ? "mrrc" : "mcrr", machInst,
csprintf("%s %s",
isRead ? "mrrc" : "mcrr", miscRegName[miscReg]));
}
}
}
'''
}};
def format Mcrr15() {{
decode_block = '''
return decodeMcrrMrrc15(machInst);
'''
}};
def format Mrrc15() {{
decode_block = '''
return decodeMcrrMrrc15(machInst);
'''
}};
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