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// -*- mode:c++ -*-
// Copyright (c) 2010,2019 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.
//
// Copyright (c) 2007-2008 The Florida State University
// 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.
def format AddrMode2(imm) {{
if eval(imm):
imm = True
else:
imm = False
def buildPUBWLCase(p, u, b, w, l):
return (p << 4) + (u << 3) + (b << 2) + (w << 1) + (l << 0)
header_output = decoder_output = exec_output = ""
decode_block = "switch(PUBWL) {\n"
# Loop over all the values of p, u, b, w and l and build instructions and
# a decode block for them.
for p in (0, 1):
for u in (0, 1):
for b in (0, 1):
for w in (0, 1):
post = (p == 0)
user = (p == 0 and w == 1)
writeback = (p == 0 or w == 1)
add = (u == 1)
if b == 0:
size = 4
else:
size = 1
if add:
addStr = "true"
else:
addStr = "false"
if imm:
newDecode = "return new %s(machInst, RD, RN," + \
"%s, machInst.immed11_0);"
loadClass = loadImmClassName(post, add, writeback,
size, False, user)
storeClass = storeImmClassName(post, add, writeback,
size, False, user)
loadDecode = newDecode % (loadClass, addStr)
storeDecode = newDecode % (storeClass, addStr)
else:
newDecode = "return new %s(machInst, RD, RN, %s," + \
"machInst.shiftSize," + \
"machInst.shift, RM);"
loadClass = loadRegClassName(post, add, writeback,
size, False, user)
storeClass = storeRegClassName(post, add, writeback,
size, False, user)
loadDecode = newDecode % (loadClass, addStr)
storeDecode = newDecode % (storeClass, addStr)
decode = '''
case %#x:
{%s}
break;
'''
decode_block += decode % \
(buildPUBWLCase(p,u,b,w,1), loadDecode)
decode_block += decode % \
(buildPUBWLCase(p,u,b,w,0), storeDecode)
decode_block += '''
default:
return new Unknown(machInst);
break;
}'''
}};
def format AddrMode3() {{
decode = '''
{
const uint32_t op1 = bits(machInst, 24, 20);
const uint32_t op2 = bits(machInst, 6, 5);
const uint32_t puiw = bits(machInst, 24, 21);
const uint32_t imm = IMMED_HI_11_8 << 4 | IMMED_LO_3_0;
switch (op2) {
case 0x1:
if (op1 & 0x1) {
%(ldrh)s
} else {
%(strh)s
}
case 0x2:
if (op1 & 0x1) {
%(ldrsb)s
} else if ((RT %% 2) == 0) {
%(ldrd)s
} else {
return new Unknown(machInst);
}
case 0x3:
if (op1 & 0x1) {
%(ldrsh)s
} else {
%(strd)s
}
default:
return new Unknown(machInst);
}
}
'''
def decodePuiwCase(load, d, p, u, i, w, size=4, sign=False):
post = (p == 0)
user = (p == 0 and w == 1)
writeback = (p == 0 or w == 1)
add = (u == 1)
caseVal = (p << 3) + (u << 2) + (i << 1) + (w << 0)
decode = '''
case %#x:
return new '''% caseVal
if add:
addStr = "true"
else:
addStr = "false"
if d:
dests = "RT & ~1, RT | 1"
else:
dests = "RT"
if i:
if load:
if d:
className = loadDoubleImmClassName(post, add, writeback)
else:
className = loadImmClassName(post, add, writeback, \
size=size, sign=sign, \
user=user)
else:
if d:
className = storeDoubleImmClassName(post, add, writeback)
else:
className = storeImmClassName(post, add, writeback, \
size=size, sign=sign, \
user=user)
decode += ("%s(machInst, %s, RN, %s, imm);\n" % \
(className, dests, addStr))
else:
if load:
if d:
className = loadDoubleRegClassName(post, add, writeback)
else:
className = loadRegClassName(post, add, writeback, \
size=size, sign=sign, \
user=user)
else:
if d:
className = storeDoubleRegClassName(post, add, writeback)
else:
className = storeRegClassName(post, add, writeback, \
size=size, sign=sign, \
user=user)
decode += ("%s(machInst, %s, RN, %s, 0, LSL, RM);\n" % \
(className, dests, addStr))
return decode
def decodePuiw(load, d, size=4, sign=False):
global decodePuiwCase
decode = "switch (puiw) {\n"
for p in (0, 1):
for u in (0, 1):
for i in (0, 1):
for w in (0, 1):
decode += decodePuiwCase(load, d, p, u, i, w,
size, sign)
decode += '''
default:
return new Unknown(machInst);
}
'''
return decode
subs = {
"ldrh" : decodePuiw(True, False, size=2),
"strh" : decodePuiw(False, False, size=2),
"ldrsb" : decodePuiw(True, False, size=1, sign=True),
"ldrd" : decodePuiw(True, True),
"ldrsh" : decodePuiw(True, False, size=2, sign=True),
"strd" : decodePuiw(False, True)
}
decode_block = decode % subs
}};
def format ArmSyncMem() {{
decode_block = '''
{
const IntRegIndex rn = (IntRegIndex)(uint32_t)bits(machInst, 19, 16);
const IntRegIndex rt = (IntRegIndex)(uint32_t)bits(machInst, 15, 12);
const IntRegIndex rt2 = (IntRegIndex)(uint32_t)bits(machInst, 3, 0);
const auto type_L = bits(machInst, 22, 20);
const auto ex_ord = bits(machInst, 9, 8);
const auto dec_fields = (type_L << 2) | ex_ord;
switch (dec_fields) {
case 0x00:
return new %(stl)s(machInst, rt, rn, true, 0);
case 0x02:
return new %(stlex)s(machInst, rt, rt2, rn, true, 0);
case 0x03:
return new %(strex)s(machInst, rt, rt2, rn, true, 0);
case 0x04:
return new %(lda)s(machInst, rt, rn, true, 0);
case 0x06:
return new %(ldaex)s(machInst, rt, rn, true, 0);
case 0x07:
return new %(ldrex)s(machInst, rt, rn, true, 0);
case 0x0a:
return new %(stlexd)s(machInst, rt, rt2, rt2 + 1, rn, true, 0);
case 0x0b:
return new %(strexd)s(machInst, rt, rt2, rt2 + 1, rn, true, 0);
case 0x0e:
return new %(ldaexd)s(machInst, rt, rt + 1, rn, true, 0);
case 0x0f:
return new %(ldrexd)s(machInst, rt, rt + 1, rn, true, 0);
case 0x10:
return new %(stlb)s(machInst, rt, rn, true, 0);
case 0x12:
return new %(stlexb)s(machInst, rt, rt2, rn, true, 0);
case 0x13:
return new %(strexb)s(machInst, rt, rt2, rn, true, 0);
case 0x14:
return new %(ldab)s(machInst, rt, rn, true, 0);
case 0x16:
return new %(ldaexb)s(machInst, rt, rn, true, 0);
case 0x17:
return new %(ldrexb)s(machInst, rt, rn, true, 0);
case 0x18:
return new %(stlh)s(machInst, rt, rn, true, 0);
case 0x1a:
return new %(stlexh)s(machInst, rt, rt2, rn, true, 0);
case 0x1b:
return new %(strexh)s(machInst, rt, rt2, rn, true, 0);
case 0x1c:
return new %(ldah)s(machInst, rt, rn, true, 0);
case 0x1e:
return new %(ldaexh)s(machInst, rt, rn, true, 0);
case 0x1f:
return new %(ldrexh)s(machInst, rt, rn, true, 0);
default:
return new Unknown(machInst);
}
}
''' % {
"ldrex" : "LDREX_" + loadImmClassName(False, True, False, size=4),
"ldrexb" : "LDREXB_" + loadImmClassName(False, True, False, size=1),
"ldrexh" : "LDREXH_" + loadImmClassName(False, True, False, size=2),
"ldrexd" : "LDREXD_" + loadDoubleImmClassName(False, True, False),
"strex" : "STREX_" + storeImmClassName(False, True, False, size=4),
"strexb" : "STREXB_" + storeImmClassName(False, True, False, size=1),
"strexh" : "STREXH_" + storeImmClassName(False, True, False, size=2),
"strexd" : "STREXD_" + storeDoubleImmClassName(False, True, False),
"lda" : "LDA_" + loadImmClassName(False, True, False, size=4),
"ldab" : "LDAB_" + loadImmClassName(False, True, False, size=1),
"ldah" : "LDAH_" + loadImmClassName(False, True, False, size=2),
"ldaex" : "LDAEX_" + loadImmClassName(False, True, False, size=4),
"ldaexb" : "LDAEXB_" + loadImmClassName(False, True, False, size=1),
"ldaexh" : "LDAEXH_" + loadImmClassName(False, True, False, size=2),
"ldaexd" : "LDAEXD_" + loadDoubleImmClassName(False, True, False),
"stl" : "STL_" + storeImmClassName(False, True, False, size=4),
"stlb" : "STLB_" + storeImmClassName(False, True, False, size=1),
"stlh" : "STLH_" + storeImmClassName(False, True, False, size=2),
"stlex" : "STLEX_" + storeImmClassName(False, True, False, size=4),
"stlexb" : "STLEXB_" + storeImmClassName(False, True, False, size=1),
"stlexh" : "STLEXH_" + storeImmClassName(False, True, False, size=2),
"stlexd" : "STLEXD_" + storeDoubleImmClassName(False, True, False)
}
}};
def format Thumb32SrsRfe() {{
decode_block = '''
{
const bool wb = (bits(machInst, 21) == 1);
const bool add = (bits(machInst, 24, 23) == 0x3);
if (bits(machInst, 20) == 1) {
// post == add
const IntRegIndex rn =
(IntRegIndex)(uint32_t)bits(machInst, 19, 16);
if (!add && !wb) {
return new %(rfe)s(machInst, rn, RfeOp::DecrementBefore, wb);
} else if (add && !wb) {
return new %(rfe_u)s(machInst, rn, RfeOp::IncrementAfter, wb);
} else if (!add && wb) {
return new %(rfe_w)s(machInst, rn, RfeOp::DecrementBefore, wb);
} else {
return new %(rfe_uw)s(machInst, rn, RfeOp::IncrementAfter, wb);
}
} else {
const uint32_t mode = bits(machInst, 4, 0);
// We check at decode stage if the mode exists even
// if the checking is re-done by Srs::execute.
// This is done because we will otherwise panic if
// trying to read the banked stack pointer of an
// unrecognized mode.
if (unknownMode32((OperatingMode)mode))
return new Unknown(machInst);
if (!add && !wb) {
return new %(srs)s(machInst, mode,
SrsOp::DecrementBefore, wb);
} else if (add && !wb) {
return new %(srs_u)s(machInst, mode,
SrsOp::IncrementAfter, wb);
} else if (!add && wb) {
return new %(srs_w)s(machInst, mode,
SrsOp::DecrementBefore, wb);
} else {
return new %(srs_uw)s(machInst, mode,
SrsOp::IncrementAfter, wb);
}
}
}
''' % {
"rfe" : "RFE_" + loadImmClassName(False, False, False, 8),
"rfe_u" : "RFE_" + loadImmClassName(True, True, False, 8),
"rfe_w" : "RFE_" + loadImmClassName(False, False, True, 8),
"rfe_uw" : "RFE_" + loadImmClassName(True, True, True, 8),
"srs" : "SRS_" + storeImmClassName(False, False, False, 8),
"srs_u" : "SRS_" + storeImmClassName(True, True, False, 8),
"srs_w" : "SRS_" + storeImmClassName(False, False, True, 8),
"srs_uw" : "SRS_" + storeImmClassName(True, True, True, 8)
}
}};
def format Thumb32LdrStrDExTbh() {{
decode_block = '''
{
const uint32_t op1 = bits(machInst, 24, 23);
const uint32_t op2 = bits(machInst, 21, 20);
const uint32_t op3 = bits(machInst, 7, 4);
const IntRegIndex rn = (IntRegIndex)(uint32_t)bits(machInst, 19, 16);
const IntRegIndex rt = (IntRegIndex)(uint32_t)bits(machInst, 15, 12);
const IntRegIndex rt2 = (IntRegIndex)(uint32_t)bits(machInst, 11, 8);
const IntRegIndex rd = (IntRegIndex)(uint32_t)bits(machInst, 3, 0);
const uint32_t imm8 = bits(machInst, 7, 0);
if (bits(op1, 1) == 0 && bits(op2, 1) == 0) {
if (op1 == 0) {
const uint32_t imm = bits(machInst, 7, 0) << 2;
if (op2 == 0) {
return new %(strex)s(machInst, rt2, rt, rn, true, imm);
} else {
return new %(ldrex)s(machInst, rt, rn, true, imm);
}
} else {
if (op2 == 0) {
switch (op3) {
case 0x4:
return new %(strexb)s(machInst, rd, rt, rn, true, 0);
case 0x5:
return new %(strexh)s(machInst, rd, rt, rn, true, 0);
case 0x7:
return new %(strexd)s(machInst, rd, rt,
rt2, rn, true, 0);
case 0x8:
return new %(stlb)s(machInst, rt, rn, true, 0);
case 0x9:
return new %(stlh)s(machInst, rt, rn, true, 0);
case 0xa:
return new %(stl)s(machInst, rt, rn, true, 0);
case 0xc:
return new %(stlexb)s(machInst, rd, rt, rn, true, 0);
case 0xd:
return new %(stlexh)s(machInst, rd, rt, rn, true, 0);
case 0xe:
return new %(stlex)s(machInst, rd, rt, rn, true, 0);
case 0xf:
return new %(stlexd)s(machInst, rd, rt,
rt2, rn, true, 0);
default:
return new Unknown(machInst);
}
} else {
switch (op3) {
case 0x0:
return new Tbb(machInst, rn, rd);
case 0x1:
return new Tbh(machInst, rn, rd);
case 0x4:
return new %(ldrexb)s(machInst, rt, rn, true, 0);
case 0x5:
return new %(ldrexh)s(machInst, rt, rn, true, 0);
case 0x7:
return new %(ldrexd)s(machInst, rt, rt2, rn, true, 0);
case 0x8:
return new %(ldab)s(machInst, rt, rn, true, 0);
case 0x9:
return new %(ldah)s(machInst, rt, rn, true, 0);
case 0xa:
return new %(lda)s(machInst, rt, rn, true, 0);
case 0xc:
return new %(ldaexb)s(machInst, rt, rn, true, 0);
case 0xd:
return new %(ldaexh)s(machInst, rt, rn, true, 0);
case 0xe:
return new %(ldaex)s(machInst, rt, rn, true, 0);
case 0xf:
return new %(ldaexd)s(machInst, rt, rt2, rn, true, 0);
default:
return new Unknown(machInst);
}
}
}
} else {
const uint32_t puw = (bits(machInst, 24, 23) << 1) |
bits(machInst, 21);
const uint32_t dimm = imm8 << 2;
if (bits(op2, 0) == 0) {
switch (puw) {
case 0x1:
return new %(strd_w)s(machInst, rt, rt2, rn, false, dimm);
case 0x3:
return new %(strd_uw)s(machInst, rt, rt2, rn, true, dimm);
case 0x4:
return new %(strd_p)s(machInst, rt, rt2, rn, false, dimm);
case 0x5:
return new %(strd_pw)s(machInst, rt, rt2, rn, false, dimm);
case 0x6:
return new %(strd_pu)s(machInst, rt, rt2, rn, true, dimm);
case 0x7:
return new %(strd_puw)s(machInst, rt, rt2, rn, true, dimm);
default:
return new Unknown(machInst);
}
} else {
switch (puw) {
case 0x1:
return new %(ldrd_w)s(machInst, rt, rt2, rn, false, dimm);
case 0x3:
return new %(ldrd_uw)s(machInst, rt, rt2, rn, true, dimm);
case 0x4:
return new %(ldrd_p)s(machInst, rt, rt2, rn, false, dimm);
case 0x5:
return new %(ldrd_pw)s(machInst, rt, rt2, rn, false, dimm);
case 0x6:
return new %(ldrd_pu)s(machInst, rt, rt2, rn, true, dimm);
case 0x7:
return new %(ldrd_puw)s(machInst, rt, rt2, rn, true, dimm);
default:
return new Unknown(machInst);
}
}
}
}
''' % {
"ldrex" : "LDREX_" + loadImmClassName(False, True, False, size=4),
"ldrexb" : "LDREXB_" + loadImmClassName(False, True, False, size=1),
"ldrexh" : "LDREXH_" + loadImmClassName(False, True, False, size=2),
"ldrexd" : "LDREXD_" + loadDoubleImmClassName(False, True, False),
"strex" : "STREX_" + storeImmClassName(False, True, False, size=4),
"strexb" : "STREXB_" + storeImmClassName(False, True, False, size=1),
"strexh" : "STREXH_" + storeImmClassName(False, True, False, size=2),
"strexd" : "STREXD_" + storeDoubleImmClassName(False, True, False),
"ldrd_w" : loadDoubleImmClassName(True, False, True),
"ldrd_uw" : loadDoubleImmClassName(True, True, True),
"ldrd_p" : loadDoubleImmClassName(False, False, False),
"ldrd_pw" : loadDoubleImmClassName(False, False, True),
"ldrd_pu" : loadDoubleImmClassName(False, True, False),
"ldrd_puw" : loadDoubleImmClassName(False, True, True),
"strd_w" : storeDoubleImmClassName(True, False, True),
"strd_uw" : storeDoubleImmClassName(True, True, True),
"strd_p" : storeDoubleImmClassName(False, False, False),
"strd_pw" : storeDoubleImmClassName(False, False, True),
"strd_pu" : storeDoubleImmClassName(False, True, False),
"strd_puw" : storeDoubleImmClassName(False, True, True),
"stl" : "STL_" + storeImmClassName(False, True, False, size=4),
"stlh" : "STLH_" + storeImmClassName(False, True, False, size=2),
"stlb" : "STLB_" + storeImmClassName(False, True, False, size=1),
"stlex" : "STLEX_" + storeImmClassName(False, True, False, size=4),
"stlexh" : "STLEXH_" + storeImmClassName(False, True, False, size=2),
"stlexb" : "STLEXB_" + storeImmClassName(False, True, False, size=1),
"stlexd" : "STLEXD_" + storeDoubleImmClassName(False, True, False),
"lda" : "LDA_" + loadImmClassName(False, True, False, size=4),
"ldah" : "LDAH_" + loadImmClassName(False, True, False, size=2),
"ldab" : "LDAB_" + loadImmClassName(False, True, False, size=1),
"ldaex" : "LDAEX_" + loadImmClassName(False, True, False, size=4),
"ldaexh" : "LDAEXH_" + loadImmClassName(False, True, False, size=2),
"ldaexb" : "LDAEXB_" + loadImmClassName(False, True, False, size=1),
"ldaexd" : "LDAEXD_" + loadDoubleImmClassName(False, True, False)
}
}};
def format Thumb32LoadWord() {{
decode = '''
{
uint32_t op1 = bits(machInst, 24, 23);
if (bits(op1, 1) == 0) {
uint32_t op2 = bits(machInst, 11, 6);
if (HTRN == 0xF) {
if (UP) {
return new %(literal_u)s(machInst, RT, INTREG_PC,
true, IMMED_11_0);
} else {
return new %(literal)s(machInst, RT, INTREG_PC,
false, IMMED_11_0);
}
} else if (op1 == 0x1) {
return new %(imm_pu)s(machInst, RT, RN, true, IMMED_11_0);
} else if (op2 == 0) {
return new %(register)s(machInst, RT, RN, UP,
bits(machInst, 5, 4), LSL, RM);
} else if ((op2 & 0x3c) == 0x38) {
return new %(ldrt)s(machInst, RT, RN, true, IMMED_7_0);
} else if ((op2 & 0x3c) == 0x30 || //P
(op2 & 0x24) == 0x24) { //W
uint32_t puw = bits(machInst, 10, 8);
uint32_t imm = IMMED_7_0;
switch (puw) {
case 0:
case 2:
// If we're here, either P or W must have been set.
panic("Neither P or W set, but that "
"shouldn't be possible.\\n");
case 1:
return new %(imm_w)s(machInst, RT, RN, false, imm);
case 3:
return new %(imm_uw)s(machInst, RT, RN, true, imm);
case 4:
return new %(imm_p)s(machInst, RT, RN, false, imm);
case 5:
return new %(imm_pw)s(machInst, RT, RN, false, imm);
case 6:
return new %(imm_pu)s(machInst, RT, RN, true, imm);
case 7:
return new %(imm_puw)s(machInst, RT, RN, true, imm);
}
}
return new Unknown(machInst);
} else {
return new Unknown(machInst);
}
}
'''
classNames = {
"literal_u" : loadImmClassName(False, True, False),
"literal" : loadImmClassName(False, False, False),
"register" : loadRegClassName(False, True, False),
"ldrt" : loadImmClassName(False, True, False, user=True),
"imm_w" : loadImmClassName(True, False, True),
"imm_uw" : loadImmClassName(True, True, True),
"imm_p" : loadImmClassName(False, False, False),
"imm_pw" : loadImmClassName(False, False, True),
"imm_pu" : loadImmClassName(False, True, False),
"imm_puw" : loadImmClassName(False, True, True)
}
decode_block = decode % classNames
}};
def format Thumb32StoreSingle() {{
def buildPuwDecode(size):
puwDecode = '''
{
uint32_t puw = bits(machInst, 10, 8);
uint32_t imm = IMMED_7_0;
switch (puw) {
case 0:
case 2:
// If we're here, either P or W must have been set.
panic("Neither P or W set, but that "
"shouldn't be possible.\\n");
case 1:
return new %(imm_w)s(machInst, RT, RN, false, imm);
case 3:
return new %(imm_uw)s(machInst, RT, RN, true, imm);
case 4:
return new %(imm_p)s(machInst, RT, RN, false, imm);
case 5:
return new %(imm_pw)s(machInst, RT, RN, false, imm);
case 6:
return new %(imm_pu)s(machInst, RT, RN, true, imm);
case 7:
return new %(imm_puw)s(machInst, RT, RN, true, imm);
default:
M5_UNREACHABLE;
}
}
'''
return puwDecode % {
"imm_w" : storeImmClassName(True, False, True, size=size),
"imm_uw" : storeImmClassName(True, True, True, size=size),
"imm_p" : storeImmClassName(False, False, False, size=size),
"imm_pw" : storeImmClassName(False, False, True, size=size),
"imm_pu" : storeImmClassName(False, True, False, size=size),
"imm_puw" : storeImmClassName(False, True, True, size=size)
}
decode = '''
{
uint32_t op1 = bits(machInst, 23, 21);
uint32_t op2 = bits(machInst, 11, 6);
bool op2Puw = ((op2 & 0x24) == 0x24 ||
(op2 & 0x3c) == 0x30);
if (RN == 0xf) {
return new Unknown(machInst);
}
if (op1 == 4) {
return new %(strb_imm)s(machInst, RT, RN, true, IMMED_11_0);
} else if (op1 == 0 && op2Puw) {
%(strb_puw)s;
} else if (op1 == 0 && ((op2 & 0x3c) == 0x38)) {
return new %(strbt)s(machInst, RT, RN, true, IMMED_7_0);
} else if (op1 == 0 && op2 == 0) {
return new %(strb_reg)s(machInst, RT, RN, true,
bits(machInst, 5, 4), LSL, RM);
} else if (op1 == 5) {
return new %(strh_imm)s(machInst, RT, RN, true, IMMED_11_0);
} else if (op1 == 1 && op2Puw) {
%(strh_puw)s;
} else if (op1 == 1 && ((op2 & 0x3c) == 0x38)) {
return new %(strht)s(machInst, RT, RN, true, IMMED_7_0);
} else if (op1 == 1 && op2 == 0) {
return new %(strh_reg)s(machInst, RT, RN, true,
bits(machInst, 5, 4), LSL, RM);
} else if (op1 == 6) {
return new %(str_imm)s(machInst, RT, RN, true, IMMED_11_0);
} else if (op1 == 2 && op2Puw) {
%(str_puw)s;
} else if (op1 == 2 && ((op2 & 0x3c) == 0x38)) {
return new %(strt)s(machInst, RT, RN, true, IMMED_7_0);
} else if (op1 == 2 && op2 == 0) {
return new %(str_reg)s(machInst, RT, RN, true,
bits(machInst, 5, 4), LSL, RM);
} else {
return new Unknown(machInst);
}
}
'''
classNames = {
"strb_imm" : storeImmClassName(False, True, False, size=1),
"strb_puw" : buildPuwDecode(1),
"strbt" : storeImmClassName(False, True, False, user=True, size=1),
"strb_reg" : storeRegClassName(False, True, False, size=1),
"strh_imm" : storeImmClassName(False, True, False, size=2),
"strh_puw" : buildPuwDecode(2),
"strht" : storeImmClassName(False, True, False, user=True, size=2),
"strh_reg" : storeRegClassName(False, True, False, size=2),
"str_imm" : storeImmClassName(False, True, False),
"str_puw" : buildPuwDecode(4),
"strt" : storeImmClassName(False, True, False, user=True),
"str_reg" : storeRegClassName(False, True, False)
}
decode_block = decode % classNames
}};
def format LoadByteMemoryHints() {{
decode = '''
{
const uint32_t op1 = bits(machInst, 24, 23);
const uint32_t op2 = bits(machInst, 11, 6);
const IntRegIndex rn = (IntRegIndex)(uint32_t)bits(machInst, 19, 16);
const IntRegIndex rt = (IntRegIndex)(uint32_t)bits(machInst, 15, 12);
const IntRegIndex rm = (IntRegIndex)(uint32_t)bits(machInst, 3, 0);
const uint32_t imm12 = bits(machInst, 11, 0);
const uint32_t imm8 = bits(machInst, 7, 0);
bool pldw = bits(machInst, 21);
const uint32_t imm2 = bits(machInst, 5, 4);
if (rn == 0xf) {
if (rt == 0xf) {
const bool add = bits(machInst, 23);
if (bits(op1, 1) == 1) {
if (add) {
return new %(pli_iulit)s(machInst, INTREG_ZERO,
INTREG_PC, true, imm12);
} else {
return new %(pli_ilit)s(machInst, INTREG_ZERO,
INTREG_PC, false, imm12);
}
} else {
if (add) {
return new %(pld_iulit)s(machInst, INTREG_ZERO,
INTREG_PC, true, imm12);
} else {
return new %(pld_ilit)s(machInst, INTREG_ZERO,
INTREG_PC, false, imm12);
}
}
} else {
if (bits(op1, 1) == 1) {
if (bits(machInst, 23)) {
return new %(ldrsb_lit_u)s(machInst, rt, INTREG_PC,
true, imm12);
} else {
return new %(ldrsb_lit)s(machInst, rt, INTREG_PC,
false, imm12);
}
} else {
if (bits(machInst, 23)) {
return new %(ldrb_lit_u)s(machInst, rt, INTREG_PC,
true, imm12);
} else {
return new %(ldrb_lit)s(machInst, rt, INTREG_PC,
false, imm12);
}
}
}
} else if (rt == 0xf) {
switch (op1) {
case 0x0:
if (op2 == 0x0) {
if (pldw) {
return new %(pldw_radd)s(machInst, INTREG_ZERO,
rn, true, imm2, LSL, rm);
} else {
return new %(pld_radd)s(machInst, INTREG_ZERO,
rn, true, imm2, LSL, rm);
}
} else if (bits(op2, 5, 2) == 0xc) {
if (pldw) {
return new %(pldw_isub)s(machInst, INTREG_ZERO,
rn, false, imm8);
} else {
return new %(pld_isub)s(machInst, INTREG_ZERO,
rn, false, imm8);
}
}
break;
case 0x1:
if (pldw) {
return new %(pldw_iadd)s(machInst, INTREG_ZERO,
rn, true, imm12);
} else {
return new %(pld_iadd)s(machInst, INTREG_ZERO,
rn, true, imm12);
}
case 0x2:
if (op2 == 0x0) {
return new %(pli_radd)s(machInst, INTREG_ZERO, rn,
true, imm2, LSL, rm);
} else if (bits(op2, 5, 2) == 0xc) {
return new %(pli_ilit)s(machInst, INTREG_ZERO,
INTREG_PC, false, imm8);
}
break;
case 0x3:
return new %(pli_iulit)s(machInst, INTREG_ZERO,
INTREG_PC, true, imm12);
}
return new Unknown(machInst);
} else {
switch (op1) {
case 0x0:
if (op2 == 0) {
return new %(ldrb_radd)s(machInst, rt, rn, true,
imm2, LSL, rm);
} else if (bits(op2, 5, 2) == 0xe) {
return new %(ldrbt)s(machInst, rt, rn, true, imm8);
} else if ((op2 & 0x24) == 0x24 || bits(op2, 5, 2) == 0xc) {
const uint32_t puw = bits(machInst, 10, 8);
switch (puw) {
case 0x1:
return new %(ldrb_iw)s(machInst, rt,
rn, false, imm8);
case 0x3:
return new %(ldrb_iuw)s(machInst, rt,
rn, true, imm8);
case 0x4:
return new %(ldrb_ip)s(machInst, rt,
rn, false, imm8);
case 0x5:
return new %(ldrb_ipw)s(machInst, rt,
rn, false, imm8);
case 0x7:
return new %(ldrb_ipuw)s(machInst, rt,
rn, true, imm8);
}
}
break;
case 0x1:
return new %(ldrb_iadd)s(machInst, rt, rn, true, imm12);
case 0x2:
if (op2 == 0) {
return new %(ldrsb_radd)s(machInst, rt, rn, true,
imm2, LSL, rm);
} else if (bits(op2, 5, 2) == 0xe) {
return new %(ldrsbt)s(machInst, rt, rn, true, imm8);
} else if ((op2 & 0x24) == 0x24 || bits(op2, 5, 2) == 0xc) {
const uint32_t puw = bits(machInst, 10, 8);
switch (puw) {
case 0x1:
return new %(ldrsb_iw)s(machInst, rt,
rn, false, imm8);
case 0x3:
return new %(ldrsb_iuw)s(machInst, rt,
rn, true, imm8);
case 0x4:
return new %(ldrsb_ip)s(machInst, rt,
rn, false, imm8);
case 0x5:
return new %(ldrsb_ipw)s(machInst, rt,
rn, false, imm8);
case 0x7:
return new %(ldrsb_ipuw)s(machInst, rt,
rn, true, imm8);
}
}
break;
case 0x3:
return new %(ldrsb_iadd)s(machInst, rt, rn, true, imm12);
}
return new Unknown(machInst);
}
}
'''
substDict = {
"ldrsb_lit_u" : loadImmClassName(False, True, False, 1, True),
"ldrsb_lit" : loadImmClassName(False, False, False, 1, True),
"ldrb_lit_u" : loadImmClassName(False, True, False, 1),
"ldrb_lit" : loadImmClassName(False, False, False, 1),
"ldrsb_radd" : loadRegClassName(False, True, False, 1, True),
"ldrb_radd" : loadRegClassName(False, True, False, 1),
"ldrsb_iw" : loadImmClassName(True, False, True, 1, True),
"ldrsb_iuw" : loadImmClassName(True, True, True, 1, True),
"ldrsb_ip" : loadImmClassName(False, False, False, 1, True),
"ldrsb_ipw" : loadImmClassName(False, False, True, 1, True),
"ldrsb_ipuw" : loadImmClassName(False, True, True, 1, True),
"ldrsb_iadd" : loadImmClassName(False, True, False, 1, True),
"ldrb_iw" : loadImmClassName(True, False, True, 1),
"ldrb_iuw" : loadImmClassName(True, True, True, 1),
"ldrb_ip" : loadImmClassName(False, False, False, 1),
"ldrb_ipw" : loadImmClassName(False, False, True, 1),
"ldrb_ipuw" : loadImmClassName(False, True, True, 1),
"ldrb_iadd" : loadImmClassName(False, True, False, 1),
"ldrbt" : loadImmClassName(False, True, False, 1, user=True),
"ldrsbt" : loadImmClassName(False, True, False, 1, True, user=True),
"pldw_radd" : "PLDW_" + loadRegClassName(False, True, False, 1),
"pld_radd" : "PLD_" + loadRegClassName(False, True, False, 1),
"pldw_isub" : "PLDW_" + loadImmClassName(False, False, False, 1),
"pld_isub" : "PLD_" + loadImmClassName(False, False, False, 1),
"pldw_iadd" : "PLDW_" + loadImmClassName(False, True, False, 1),
"pld_iadd" : "PLD_" + loadImmClassName(False, True, False, 1),
"pld_iulit" : "PLD_" + loadImmClassName(False, True, False, 1),
"pld_ilit" : "PLD_" + loadImmClassName(False, False, False, 1),
"pli_iulit" : "PLI_" + loadImmClassName(False, True, False, 1),
"pli_ilit" : "PLI_" + loadImmClassName(False, False, False, 1),
"pli_radd" : "PLI_" + loadRegClassName(False, True, False, 1),
"pli_iulit" : "PLI_" + loadImmClassName(False, True, False, 1),
"pli_ilit" : "PLI_" + loadImmClassName(False, False, False, 1)
}
decode_block = decode % substDict
}};
def format LoadHalfwordMemoryHints() {{
decode = '''
{
const uint32_t op1 = bits(machInst, 24, 23);
const uint32_t op2 = bits(machInst, 11, 6);
const IntRegIndex rn = (IntRegIndex)(uint32_t)bits(machInst, 19, 16);
const IntRegIndex rt = (IntRegIndex)(uint32_t)bits(machInst, 15, 12);
const IntRegIndex rm = (IntRegIndex)(uint32_t)bits(machInst, 3, 0);
const uint32_t imm12 = bits(machInst, 11, 0);
const uint32_t imm8 = bits(machInst, 7, 0);
bool pldw = bits(machInst, 21);
const uint32_t imm2 = bits(machInst, 5, 4);
if (rn == 0xf) {
if (rt == 0xf) {
if (bits(op1, 1) == 1) {
// Unallocated memory hint
return new NopInst(machInst);
} else {
return new Unknown(machInst);
}
} else {
if (bits(op1, 1) == 1) {
if (bits(machInst, 23)) {
return new %(ldrsh_lit_u)s(machInst, rt, INTREG_PC,
true, imm12);
} else {
return new %(ldrsh_lit)s(machInst, rt, INTREG_PC,
false, imm12);
}
} else {
if (bits(machInst, 23)) {
return new %(ldrh_lit_u)s(machInst, rt, INTREG_PC,
true, imm12);
} else {
return new %(ldrh_lit)s(machInst, rt, INTREG_PC,
false, imm12);
}
}
}
} else if (rt == 0xf) {
switch (op1) {
case 0x0:
if (op2 == 0x0) {
if (pldw) {
return new %(pldw_radd)s(machInst, INTREG_ZERO,
rn, true, imm2, LSL, rm);
} else {
return new %(pld_radd)s(machInst, INTREG_ZERO,
rn, true, imm2, LSL, rm);
}
} else if (bits(op2, 5, 2) == 0xc) {
if (pldw) {
return new %(pldw_isub)s(machInst, INTREG_ZERO,
rn, false, imm8);
} else {
return new %(pld_isub)s(machInst, INTREG_ZERO,
rn, false, imm8);
}
}
break;
case 0x1:
if (pldw) {
return new %(pldw_iadd)s(machInst, INTREG_ZERO,
rn, true, imm12);
} else {
return new %(pld_iadd)s(machInst, INTREG_ZERO,
rn, true, imm12);
}
case 0x2:
if (op2 == 0x0 || bits(op2, 5, 2) == 0xc) {
// Unallocated memory hint
return new NopInst(machInst);
}
break;
case 0x3:
return new NopInst(machInst);
}
return new Unknown(machInst);
} else {
switch (op1) {
case 0x0:
if (op2 == 0) {
return new %(ldrh_radd)s(machInst, rt, rn, true,
imm2, LSL, rm);
} else if (bits(op2, 5, 2) == 0xe) {
return new %(ldrht)s(machInst, rt, rn, true, imm8);
} else if ((op2 & 0x24) == 0x24 || bits(op2, 5, 2) == 0xc) {
const uint32_t puw = bits(machInst, 10, 8);
switch (puw) {
case 0x1:
return new %(ldrh_iw)s(machInst, rt,
rn, false, imm8);
case 0x3:
return new %(ldrh_iuw)s(machInst, rt,
rn, true, imm8);
case 0x4:
return new %(ldrh_ip)s(machInst, rt,
rn, false, imm8);
case 0x5:
return new %(ldrh_ipw)s(machInst, rt,
rn, false, imm8);
case 0x7:
return new %(ldrh_ipuw)s(machInst, rt,
rn, true, imm8);
}
}
break;
case 0x1:
return new %(ldrh_iadd)s(machInst, rt, rn, true, imm12);
case 0x2:
if (op2 == 0) {
return new %(ldrsh_radd)s(machInst, rt, rn, true,
imm2, LSL, rm);
} else if (bits(op2, 5, 2) == 0xe) {
return new %(ldrsht)s(machInst, rt, rn, true, imm8);
} else if ((op2 & 0x24) == 0x24 || bits(op2, 5, 2) == 0xc) {
const uint32_t puw = bits(machInst, 10, 8);
switch (puw) {
case 0x1:
return new %(ldrsh_iw)s(machInst, rt,
rn, false, imm8);
case 0x3:
return new %(ldrsh_iuw)s(machInst, rt,
rn, true, imm8);
case 0x4:
return new %(ldrsh_ip)s(machInst, rt,
rn, false, imm8);
case 0x5:
return new %(ldrsh_ipw)s(machInst, rt,
rn, false, imm8);
case 0x7:
return new %(ldrsh_ipuw)s(machInst, rt,
rn, true, imm8);
}
}
break;
case 0x3:
return new %(ldrsh_iadd)s(machInst, rt, rn, true, imm12);
}
return new Unknown(machInst);
}
}
'''
substDict = {
"ldrsh_lit_u" : loadImmClassName(False, True, False, 2, True),
"ldrsh_lit" : loadImmClassName(False, False, False, 2, True),
"ldrh_lit_u" : loadImmClassName(False, True, False, 2),
"ldrh_lit" : loadImmClassName(False, False, False, 2),
"ldrsh_radd" : loadRegClassName(False, True, False, 2, True),
"ldrh_radd" : loadRegClassName(False, True, False, 2),
"ldrsh_iw" : loadImmClassName(True, False, True, 2, True),
"ldrsh_iuw" : loadImmClassName(True, True, True, 2, True),
"ldrsh_ip" : loadImmClassName(False, False, False, 2, True),
"ldrsh_ipw" : loadImmClassName(False, False, True, 2, True),
"ldrsh_ipuw" : loadImmClassName(False, True, True, 2, True),
"ldrsh_iadd" : loadImmClassName(False, True, False, 2, True),
"ldrh_iw" : loadImmClassName(True, False, True, 2),
"ldrh_iuw" : loadImmClassName(True, True, True, 2),
"ldrh_ip" : loadImmClassName(False, False, False, 2),
"ldrh_ipw" : loadImmClassName(False, False, True, 2),
"ldrh_ipuw" : loadImmClassName(False, True, True, 2),
"ldrh_iadd" : loadImmClassName(False, True, False, 2),
"ldrht" : loadImmClassName(False, True, False, 2, user=True),
"ldrsht" : loadImmClassName(False, True, False, 2, True, user=True),
"pldw_radd" : "PLDW_" + loadRegClassName(False, True, False, 1),
"pld_radd" : "PLD_" + loadRegClassName(False, True, False, 1),
"pldw_isub" : "PLDW_" + loadImmClassName(False, False, False, 1),
"pld_isub" : "PLD_" + loadImmClassName(False, False, False, 1),
"pldw_iadd" : "PLDW_" + loadImmClassName(False, True, False, 1),
"pld_iadd" : "PLD_" + loadImmClassName(False, True, False, 1)
}
decode_block = decode % substDict
}};
def format Thumb16MemReg() {{
decode = '''
{
const uint32_t opb = bits(machInst, 11, 9);
const uint32_t rt = bits(machInst, 2, 0);
const uint32_t rn = bits(machInst, 5, 3);
const uint32_t rm = bits(machInst, 8, 6);
switch (opb) {
case 0x0:
return new %(str)s(machInst, rt, rn, true, 0, LSL, rm);
case 0x1:
return new %(strh)s(machInst, rt, rn, true, 0, LSL, rm);
case 0x2:
return new %(strb)s(machInst, rt, rn, true, 0, LSL, rm);
case 0x3:
return new %(ldrsb)s(machInst, rt, rn, true, 0, LSL, rm);
case 0x4:
return new %(ldr)s(machInst, rt, rn, true, 0, LSL, rm);
case 0x5:
return new %(ldrh)s(machInst, rt, rn, true, 0, LSL, rm);
case 0x6:
return new %(ldrb)s(machInst, rt, rn, true, 0, LSL, rm);
case 0x7:
return new %(ldrsh)s(machInst, rt, rn, true, 0, LSL, rm);
default:
M5_UNREACHABLE;
}
}
'''
classNames = {
"str" : storeRegClassName(False, True, False),
"strh" : storeRegClassName(False, True, False, size=2),
"strb" : storeRegClassName(False, True, False, size=1),
"ldrsb" : loadRegClassName(False, True, False, sign=True, size=1),
"ldr" : loadRegClassName(False, True, False),
"ldrh" : loadRegClassName(False, True, False, size=2),
"ldrb" : loadRegClassName(False, True, False, size=1),
"ldrsh" : loadRegClassName(False, True, False, sign=True, size=2),
}
decode_block = decode % classNames
}};
def format Thumb16MemImm() {{
decode = '''
{
const uint32_t opa = bits(machInst, 15, 12);
const uint32_t opb = bits(machInst, 11, 9);
const uint32_t lrt = bits(machInst, 2, 0);
const uint32_t lrn = bits(machInst, 5, 3);
const uint32_t hrt = bits(machInst, 10, 8);
const uint32_t imm5 = bits(machInst, 10, 6);
const uint32_t imm8 = bits(machInst, 7, 0);
const bool load = bits(opb, 2);
switch (opa) {
case 0x6:
if (load) {
return new %(ldr)s(machInst, lrt, lrn, true, imm5 << 2);
} else {
return new %(str)s(machInst, lrt, lrn, true, imm5 << 2);
}
case 0x7:
if (load) {
return new %(ldrb)s(machInst, lrt, lrn, true, imm5);
} else {
return new %(strb)s(machInst, lrt, lrn, true, imm5);
}
case 0x8:
if (load) {
return new %(ldrh)s(machInst, lrt, lrn, true, imm5 << 1);
} else {
return new %(strh)s(machInst, lrt, lrn, true, imm5 << 1);
}
case 0x9:
if (load) {
return new %(ldr)s(machInst, hrt, INTREG_SP, true, imm8 << 2);
} else {
return new %(str)s(machInst, hrt, INTREG_SP, true, imm8 << 2);
}
default:
return new Unknown(machInst);
}
}
'''
classNames = {
"ldr" : loadImmClassName(False, True, False),
"str" : storeImmClassName(False, True, False),
"ldrh" : loadImmClassName(False, True, False, size=2),
"strh" : storeImmClassName(False, True, False, size=2),
"ldrb" : loadImmClassName(False, True, False, size=1),
"strb" : storeImmClassName(False, True, False, size=1),
}
decode_block = decode % classNames
}};
def format Thumb16MemLit() {{
decode_block = '''
{
const uint32_t rt = bits(machInst, 10, 8);
const uint32_t imm8 = bits(machInst, 7, 0);
return new %s(machInst, rt, INTREG_PC, true, imm8 << 2);
}
''' % loadImmClassName(False, True, False)
}};