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|
/*
* Copyright (c) 2010-2012 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
* Ali Saidi
*/
#include "arch/arm/isa.hh"
#include "cpu/checker/cpu.hh"
#include "debug/Arm.hh"
#include "debug/MiscRegs.hh"
#include "sim/faults.hh"
#include "sim/stat_control.hh"
#include "sim/system.hh"
namespace ArmISA
{
void
ISA::clear()
{
SCTLR sctlr_rst = miscRegs[MISCREG_SCTLR_RST];
uint32_t midr = miscRegs[MISCREG_MIDR];
memset(miscRegs, 0, sizeof(miscRegs));
CPSR cpsr = 0;
cpsr.mode = MODE_USER;
miscRegs[MISCREG_CPSR] = cpsr;
updateRegMap(cpsr);
SCTLR sctlr = 0;
sctlr.te = (bool)sctlr_rst.te;
sctlr.nmfi = (bool)sctlr_rst.nmfi;
sctlr.v = (bool)sctlr_rst.v;
sctlr.u = 1;
sctlr.xp = 1;
sctlr.rao2 = 1;
sctlr.rao3 = 1;
sctlr.rao4 = 1;
miscRegs[MISCREG_SCTLR] = sctlr;
miscRegs[MISCREG_SCTLR_RST] = sctlr_rst;
// Preserve MIDR accross reset
miscRegs[MISCREG_MIDR] = midr;
/* Start with an event in the mailbox */
miscRegs[MISCREG_SEV_MAILBOX] = 1;
// Separate Instruction and Data TLBs.
miscRegs[MISCREG_TLBTR] = 1;
MVFR0 mvfr0 = 0;
mvfr0.advSimdRegisters = 2;
mvfr0.singlePrecision = 2;
mvfr0.doublePrecision = 2;
mvfr0.vfpExceptionTrapping = 0;
mvfr0.divide = 1;
mvfr0.squareRoot = 1;
mvfr0.shortVectors = 1;
mvfr0.roundingModes = 1;
miscRegs[MISCREG_MVFR0] = mvfr0;
MVFR1 mvfr1 = 0;
mvfr1.flushToZero = 1;
mvfr1.defaultNaN = 1;
mvfr1.advSimdLoadStore = 1;
mvfr1.advSimdInteger = 1;
mvfr1.advSimdSinglePrecision = 1;
mvfr1.advSimdHalfPrecision = 1;
mvfr1.vfpHalfPrecision = 1;
miscRegs[MISCREG_MVFR1] = mvfr1;
miscRegs[MISCREG_MPIDR] = 0;
// Reset values of PRRR and NMRR are implementation dependent
miscRegs[MISCREG_PRRR] =
(1 << 19) | // 19
(0 << 18) | // 18
(0 << 17) | // 17
(1 << 16) | // 16
(2 << 14) | // 15:14
(0 << 12) | // 13:12
(2 << 10) | // 11:10
(2 << 8) | // 9:8
(2 << 6) | // 7:6
(2 << 4) | // 5:4
(1 << 2) | // 3:2
0; // 1:0
miscRegs[MISCREG_NMRR] =
(1 << 30) | // 31:30
(0 << 26) | // 27:26
(0 << 24) | // 25:24
(3 << 22) | // 23:22
(2 << 20) | // 21:20
(0 << 18) | // 19:18
(0 << 16) | // 17:16
(1 << 14) | // 15:14
(0 << 12) | // 13:12
(2 << 10) | // 11:10
(0 << 8) | // 9:8
(3 << 6) | // 7:6
(2 << 4) | // 5:4
(0 << 2) | // 3:2
0; // 1:0
miscRegs[MISCREG_CPACR] = 0;
miscRegs[MISCREG_FPSID] = 0x410430A0;
// See section B4.1.84 of ARM ARM
// All values are latest for ARMv7-A profile
miscRegs[MISCREG_ID_ISAR0] = 0x02101111;
miscRegs[MISCREG_ID_ISAR1] = 0x02112111;
miscRegs[MISCREG_ID_ISAR2] = 0x21232141;
miscRegs[MISCREG_ID_ISAR3] = 0x01112131;
miscRegs[MISCREG_ID_ISAR4] = 0x10010142;
miscRegs[MISCREG_ID_ISAR5] = 0x00000000;
//XXX We need to initialize the rest of the state.
}
MiscReg
ISA::readMiscRegNoEffect(int misc_reg)
{
assert(misc_reg < NumMiscRegs);
int flat_idx;
if (misc_reg == MISCREG_SPSR)
flat_idx = flattenMiscIndex(misc_reg);
else
flat_idx = misc_reg;
MiscReg val = miscRegs[flat_idx];
DPRINTF(MiscRegs, "Reading From misc reg %d (%d) : %#x\n",
misc_reg, flat_idx, val);
return val;
}
MiscReg
ISA::readMiscReg(int misc_reg, ThreadContext *tc)
{
if (misc_reg == MISCREG_CPSR) {
CPSR cpsr = miscRegs[misc_reg];
PCState pc = tc->pcState();
cpsr.j = pc.jazelle() ? 1 : 0;
cpsr.t = pc.thumb() ? 1 : 0;
return cpsr;
}
if (misc_reg >= MISCREG_CP15_UNIMP_START)
panic("Unimplemented CP15 register %s read.\n",
miscRegName[misc_reg]);
switch (misc_reg) {
case MISCREG_MPIDR:
return 0x80000000 | // multiprocessor extensions available
tc->cpuId();
break;
case MISCREG_ID_MMFR0:
return 0x03; // VMSAv7 support
case MISCREG_ID_MMFR2:
return 0x01230000; // no HW access | WFI stalling | ISB and DSB
// | all TLB maintenance | no Harvard
case MISCREG_ID_MMFR3:
return 0xF0102211; // SuperSec | Coherent TLB | Bcast Maint |
// BP Maint | Cache Maint Set/way | Cache Maint MVA
case MISCREG_CLIDR:
warn_once("The clidr register always reports 0 caches.\n");
warn_once("clidr LoUIS field of 0b001 to match current "
"ARM implementations.\n");
return 0x00200000;
case MISCREG_CCSIDR:
warn_once("The ccsidr register isn't implemented and "
"always reads as 0.\n");
break;
case MISCREG_ID_PFR0:
warn("Returning thumbEE disabled for now since we don't support CP14"
"config registers and jumping to ThumbEE vectors\n");
return 0x0031; // !ThumbEE | !Jazelle | Thumb | ARM
case MISCREG_ID_PFR1:
return 0x00001; // !Timer | !Virti | !M Profile | !TrustZone | ARMv4
case MISCREG_CTR:
return 0x86468006; // V7, 64 byte cache line, load/exclusive is exact
case MISCREG_ACTLR:
warn("Not doing anything for miscreg ACTLR\n");
break;
case MISCREG_PMCR:
case MISCREG_PMCCNTR:
case MISCREG_PMSELR:
warn("Not doing anything for read to miscreg %s\n",
miscRegName[misc_reg]);
break;
case MISCREG_CPSR_Q:
panic("shouldn't be reading this register seperately\n");
case MISCREG_FPSCR_QC:
return readMiscRegNoEffect(MISCREG_FPSCR) & ~FpscrQcMask;
case MISCREG_FPSCR_EXC:
return readMiscRegNoEffect(MISCREG_FPSCR) & ~FpscrExcMask;
case MISCREG_L2CTLR:
{
// mostly unimplemented, just set NumCPUs field from sim and return
L2CTLR l2ctlr = 0;
// b00:1CPU to b11:4CPUs
l2ctlr.numCPUs = tc->getSystemPtr()->numContexts() - 1;
return l2ctlr;
}
case MISCREG_DBGDIDR:
/* For now just implement the version number.
* Return 0 as we don't support debug architecture yet.
*/
return 0;
case MISCREG_DBGDSCR_INT:
return 0;
}
return readMiscRegNoEffect(misc_reg);
}
void
ISA::setMiscRegNoEffect(int misc_reg, const MiscReg &val)
{
assert(misc_reg < NumMiscRegs);
int flat_idx;
if (misc_reg == MISCREG_SPSR)
flat_idx = flattenMiscIndex(misc_reg);
else
flat_idx = misc_reg;
miscRegs[flat_idx] = val;
DPRINTF(MiscRegs, "Writing to misc reg %d (%d) : %#x\n", misc_reg,
flat_idx, val);
}
void
ISA::setMiscReg(int misc_reg, const MiscReg &val, ThreadContext *tc)
{
MiscReg newVal = val;
int x;
System *sys;
ThreadContext *oc;
if (misc_reg == MISCREG_CPSR) {
updateRegMap(val);
CPSR old_cpsr = miscRegs[MISCREG_CPSR];
int old_mode = old_cpsr.mode;
CPSR cpsr = val;
if (old_mode != cpsr.mode) {
tc->getITBPtr()->invalidateMiscReg();
tc->getDTBPtr()->invalidateMiscReg();
}
DPRINTF(Arm, "Updating CPSR from %#x to %#x f:%d i:%d a:%d mode:%#x\n",
miscRegs[misc_reg], cpsr, cpsr.f, cpsr.i, cpsr.a, cpsr.mode);
PCState pc = tc->pcState();
pc.nextThumb(cpsr.t);
pc.nextJazelle(cpsr.j);
// Follow slightly different semantics if a CheckerCPU object
// is connected
CheckerCPU *checker = tc->getCheckerCpuPtr();
if (checker) {
tc->pcStateNoRecord(pc);
} else {
tc->pcState(pc);
}
} else if (misc_reg >= MISCREG_CP15_UNIMP_START &&
misc_reg < MISCREG_CP15_END) {
panic("Unimplemented CP15 register %s wrote with %#x.\n",
miscRegName[misc_reg], val);
} else {
switch (misc_reg) {
case MISCREG_CPACR:
{
const uint32_t ones = (uint32_t)(-1);
CPACR cpacrMask = 0;
// Only cp10, cp11, and ase are implemented, nothing else should
// be writable
cpacrMask.cp10 = ones;
cpacrMask.cp11 = ones;
cpacrMask.asedis = ones;
newVal &= cpacrMask;
DPRINTF(MiscRegs, "Writing misc reg %s: %#x\n",
miscRegName[misc_reg], newVal);
}
break;
case MISCREG_CSSELR:
warn_once("The csselr register isn't implemented.\n");
return;
case MISCREG_FPSCR:
{
const uint32_t ones = (uint32_t)(-1);
FPSCR fpscrMask = 0;
fpscrMask.ioc = ones;
fpscrMask.dzc = ones;
fpscrMask.ofc = ones;
fpscrMask.ufc = ones;
fpscrMask.ixc = ones;
fpscrMask.idc = ones;
fpscrMask.len = ones;
fpscrMask.stride = ones;
fpscrMask.rMode = ones;
fpscrMask.fz = ones;
fpscrMask.dn = ones;
fpscrMask.ahp = ones;
fpscrMask.qc = ones;
fpscrMask.v = ones;
fpscrMask.c = ones;
fpscrMask.z = ones;
fpscrMask.n = ones;
newVal = (newVal & (uint32_t)fpscrMask) |
(miscRegs[MISCREG_FPSCR] & ~(uint32_t)fpscrMask);
}
break;
case MISCREG_CPSR_Q:
{
assert(!(newVal & ~CpsrMaskQ));
newVal = miscRegs[MISCREG_CPSR] | newVal;
misc_reg = MISCREG_CPSR;
}
break;
case MISCREG_FPSCR_QC:
{
newVal = miscRegs[MISCREG_FPSCR] | (newVal & FpscrQcMask);
misc_reg = MISCREG_FPSCR;
}
break;
case MISCREG_FPSCR_EXC:
{
newVal = miscRegs[MISCREG_FPSCR] | (newVal & FpscrExcMask);
misc_reg = MISCREG_FPSCR;
}
break;
case MISCREG_FPEXC:
{
// vfpv3 architecture, section B.6.1 of DDI04068
// bit 29 - valid only if fpexc[31] is 0
const uint32_t fpexcMask = 0x60000000;
newVal = (newVal & fpexcMask) |
(miscRegs[MISCREG_FPEXC] & ~fpexcMask);
}
break;
case MISCREG_SCTLR:
{
DPRINTF(MiscRegs, "Writing SCTLR: %#x\n", newVal);
SCTLR sctlr = miscRegs[MISCREG_SCTLR];
SCTLR new_sctlr = newVal;
new_sctlr.nmfi = (bool)sctlr.nmfi;
miscRegs[MISCREG_SCTLR] = (MiscReg)new_sctlr;
tc->getITBPtr()->invalidateMiscReg();
tc->getDTBPtr()->invalidateMiscReg();
// Check if all CPUs are booted with caches enabled
// so we can stop enforcing coherency of some kernel
// structures manually.
sys = tc->getSystemPtr();
for (x = 0; x < sys->numContexts(); x++) {
oc = sys->getThreadContext(x);
SCTLR other_sctlr = oc->readMiscRegNoEffect(MISCREG_SCTLR);
if (!other_sctlr.c && oc->status() != ThreadContext::Halted)
return;
}
for (x = 0; x < sys->numContexts(); x++) {
oc = sys->getThreadContext(x);
oc->getDTBPtr()->allCpusCaching();
oc->getITBPtr()->allCpusCaching();
// If CheckerCPU is connected, need to notify it.
CheckerCPU *checker = oc->getCheckerCpuPtr();
if (checker) {
checker->getDTBPtr()->allCpusCaching();
checker->getITBPtr()->allCpusCaching();
}
}
return;
}
case MISCREG_TLBTR:
case MISCREG_MVFR0:
case MISCREG_MVFR1:
case MISCREG_MPIDR:
case MISCREG_FPSID:
return;
case MISCREG_TLBIALLIS:
case MISCREG_TLBIALL:
sys = tc->getSystemPtr();
for (x = 0; x < sys->numContexts(); x++) {
oc = sys->getThreadContext(x);
assert(oc->getITBPtr() && oc->getDTBPtr());
oc->getITBPtr()->flushAll();
oc->getDTBPtr()->flushAll();
// If CheckerCPU is connected, need to notify it of a flush
CheckerCPU *checker = oc->getCheckerCpuPtr();
if (checker) {
checker->getITBPtr()->flushAll();
checker->getDTBPtr()->flushAll();
}
}
return;
case MISCREG_ITLBIALL:
tc->getITBPtr()->flushAll();
return;
case MISCREG_DTLBIALL:
tc->getDTBPtr()->flushAll();
return;
case MISCREG_TLBIMVAIS:
case MISCREG_TLBIMVA:
sys = tc->getSystemPtr();
for (x = 0; x < sys->numContexts(); x++) {
oc = sys->getThreadContext(x);
assert(oc->getITBPtr() && oc->getDTBPtr());
oc->getITBPtr()->flushMvaAsid(mbits(newVal, 31, 12),
bits(newVal, 7,0));
oc->getDTBPtr()->flushMvaAsid(mbits(newVal, 31, 12),
bits(newVal, 7,0));
CheckerCPU *checker = oc->getCheckerCpuPtr();
if (checker) {
checker->getITBPtr()->flushMvaAsid(mbits(newVal, 31, 12),
bits(newVal, 7,0));
checker->getDTBPtr()->flushMvaAsid(mbits(newVal, 31, 12),
bits(newVal, 7,0));
}
}
return;
case MISCREG_TLBIASIDIS:
case MISCREG_TLBIASID:
sys = tc->getSystemPtr();
for (x = 0; x < sys->numContexts(); x++) {
oc = sys->getThreadContext(x);
assert(oc->getITBPtr() && oc->getDTBPtr());
oc->getITBPtr()->flushAsid(bits(newVal, 7,0));
oc->getDTBPtr()->flushAsid(bits(newVal, 7,0));
CheckerCPU *checker = oc->getCheckerCpuPtr();
if (checker) {
checker->getITBPtr()->flushAsid(bits(newVal, 7,0));
checker->getDTBPtr()->flushAsid(bits(newVal, 7,0));
}
}
return;
case MISCREG_TLBIMVAAIS:
case MISCREG_TLBIMVAA:
sys = tc->getSystemPtr();
for (x = 0; x < sys->numContexts(); x++) {
oc = sys->getThreadContext(x);
assert(oc->getITBPtr() && oc->getDTBPtr());
oc->getITBPtr()->flushMva(mbits(newVal, 31,12));
oc->getDTBPtr()->flushMva(mbits(newVal, 31,12));
CheckerCPU *checker = oc->getCheckerCpuPtr();
if (checker) {
checker->getITBPtr()->flushMva(mbits(newVal, 31,12));
checker->getDTBPtr()->flushMva(mbits(newVal, 31,12));
}
}
return;
case MISCREG_ITLBIMVA:
tc->getITBPtr()->flushMvaAsid(mbits(newVal, 31, 12),
bits(newVal, 7,0));
return;
case MISCREG_DTLBIMVA:
tc->getDTBPtr()->flushMvaAsid(mbits(newVal, 31, 12),
bits(newVal, 7,0));
return;
case MISCREG_ITLBIASID:
tc->getITBPtr()->flushAsid(bits(newVal, 7,0));
return;
case MISCREG_DTLBIASID:
tc->getDTBPtr()->flushAsid(bits(newVal, 7,0));
return;
case MISCREG_ACTLR:
warn("Not doing anything for write of miscreg ACTLR\n");
break;
case MISCREG_PMCR:
{
// Performance counters not implemented. Instead, interpret
// a reset command to this register to reset the simulator
// statistics.
// PMCR_E | PMCR_P | PMCR_C
const int ResetAndEnableCounters = 0x7;
if (newVal == ResetAndEnableCounters) {
inform("Resetting all simobject stats\n");
Stats::schedStatEvent(false, true);
break;
}
}
case MISCREG_PMCCNTR:
case MISCREG_PMSELR:
warn("Not doing anything for write to miscreg %s\n",
miscRegName[misc_reg]);
break;
case MISCREG_V2PCWPR:
case MISCREG_V2PCWPW:
case MISCREG_V2PCWUR:
case MISCREG_V2PCWUW:
case MISCREG_V2POWPR:
case MISCREG_V2POWPW:
case MISCREG_V2POWUR:
case MISCREG_V2POWUW:
{
RequestPtr req = new Request;
unsigned flags;
BaseTLB::Mode mode;
Fault fault;
switch(misc_reg) {
case MISCREG_V2PCWPR:
flags = TLB::MustBeOne;
mode = BaseTLB::Read;
break;
case MISCREG_V2PCWPW:
flags = TLB::MustBeOne;
mode = BaseTLB::Write;
break;
case MISCREG_V2PCWUR:
flags = TLB::MustBeOne | TLB::UserMode;
mode = BaseTLB::Read;
break;
case MISCREG_V2PCWUW:
flags = TLB::MustBeOne | TLB::UserMode;
mode = BaseTLB::Write;
break;
default:
panic("Security Extensions not implemented!");
}
warn("Translating via MISCREG in atomic mode! Fix Me!\n");
req->setVirt(0, val, 1, flags, tc->pcState().pc(),
Request::funcMasterId);
fault = tc->getDTBPtr()->translateAtomic(req, tc, mode);
if (fault == NoFault) {
miscRegs[MISCREG_PAR] =
(req->getPaddr() & 0xfffff000) |
(tc->getDTBPtr()->getAttr() );
DPRINTF(MiscRegs,
"MISCREG: Translated addr 0x%08x: PAR: 0x%08x\n",
val, miscRegs[MISCREG_PAR]);
}
else {
// Set fault bit and FSR
FSR fsr = miscRegs[MISCREG_DFSR];
miscRegs[MISCREG_PAR] =
(fsr.ext << 6) |
(fsr.fsHigh << 5) |
(fsr.fsLow << 1) |
0x1; // F bit
}
return;
}
case MISCREG_CONTEXTIDR:
case MISCREG_PRRR:
case MISCREG_NMRR:
case MISCREG_DACR:
tc->getITBPtr()->invalidateMiscReg();
tc->getDTBPtr()->invalidateMiscReg();
break;
case MISCREG_CPSR_MODE:
// This miscreg is used by copy*Regs to set the CPSR mode
// without updating other CPSR variables. It's used to
// make sure the register map is in such a state that we can
// see all of the registers for the copy.
updateRegMap(val);
return;
case MISCREG_L2CTLR:
warn("miscreg L2CTLR (%s) written with %#x. ignored...\n",
miscRegName[misc_reg], uint32_t(val));
}
}
setMiscRegNoEffect(misc_reg, newVal);
}
}
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