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/*
* Copyright (c) 2013, 2018-2019 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.
*
* 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.
*/
#include "dev/arm/smmu_v3_ptops.hh"
#include "base/bitfield.hh"
#include "base/logging.hh"
bool
V7LPageTableOps::isValid(pte_t pte, unsigned level) const
{
switch (level) {
case 1: return pte & 0x1;
case 2: return pte & 0x1;
case 3: return (pte & 0x1) && (pte & 0x2);
default: panic("bad level %d", level);
}
}
bool
V7LPageTableOps::isLeaf(pte_t pte, unsigned level) const
{
switch (level) {
case 1: return !(pte & 0x2);
case 2: return !(pte & 0x2);
case 3: return true;
default: panic("bad level %d", level);
}
}
bool
V7LPageTableOps::isWritable(pte_t pte, unsigned level, bool stage2) const
{
return stage2 ? bits(pte, 7, 6)==3 : bits(pte, 7)==0;
}
Addr
V7LPageTableOps::nextLevelPointer(pte_t pte, unsigned level) const
{
if (isLeaf(pte, level)) {
switch (level) {
case 1: return mbits(pte, 39, 30);
case 2: return mbits(pte, 39, 21);
case 3: return mbits(pte, 39, 12);
default: panic("bad level %d", level);
}
} else {
return mbits(pte, 39, 12);
}
}
Addr
V7LPageTableOps::index(Addr va, unsigned level) const
{
// In theory this should be configurable...
const int n = 12;
switch (level) {
case 1: return bits(va, 26+n, 30) << 3; break;
case 2: return bits(va, 29, 21) << 3; break;
case 3: return bits(va, 20, 12) << 3; break;
default: panic("bad level %d", level);
}
}
Addr
V7LPageTableOps::pageMask(pte_t pte, unsigned level) const
{
switch (level) {
case 1: return ~mask(30);
case 2: return ~mask(21);
case 3: return bits(pte, 52) ? ~mask(16) : ~mask(12);
default: panic("bad level %d", level);
}
}
Addr
V7LPageTableOps::walkMask(unsigned level) const
{
switch (level) {
case 1: return ~mask(30);
case 2: return ~mask(21);
case 3: return ~mask(12);
default: panic("bad level %d", level);
}
}
unsigned
V7LPageTableOps::firstLevel(uint8_t tsz) const
{
return 1;
}
unsigned
V7LPageTableOps::lastLevel() const
{
return 3;
}
bool
V8PageTableOps4k::isValid(pte_t pte, unsigned level) const
{
switch (level) {
case 0: return pte & 0x1;
case 1: return pte & 0x1;
case 2: return pte & 0x1;
case 3: return (pte & 0x1) && (pte & 0x2);
default: panic("bad level %d", level);
}
}
bool
V8PageTableOps4k::isLeaf(pte_t pte, unsigned level) const
{
switch (level) {
case 0: return false;
case 1: return !(pte & 0x2);
case 2: return !(pte & 0x2);
case 3: return true;
default: panic("bad level %d", level);
}
}
bool
V8PageTableOps4k::isWritable(pte_t pte, unsigned level, bool stage2) const
{
return stage2 ? bits(pte, 7, 6)==3 : bits(pte, 7)==0;
}
Addr
V8PageTableOps4k::nextLevelPointer(pte_t pte, unsigned level) const
{
if (isLeaf(pte, level)) {
switch (level) {
// no level 0 here
case 1: return mbits(pte, 47, 30);
case 2: return mbits(pte, 47, 21);
case 3: return mbits(pte, 47, 12);
default: panic("bad level %d", level);
}
} else {
return mbits(pte, 47, 12);
}
}
Addr
V8PageTableOps4k::index(Addr va, unsigned level) const
{
switch (level) {
case 0: return bits(va, 47, 39) << 3; break;
case 1: return bits(va, 38, 30) << 3; break;
case 2: return bits(va, 29, 21) << 3; break;
case 3: return bits(va, 20, 12) << 3; break;
default: panic("bad level %d", level);
}
}
Addr
V8PageTableOps4k::pageMask(pte_t pte, unsigned level) const
{
switch (level) {
// no level 0 here
case 1: return ~mask(30);
case 2: return ~mask(21);
case 3: return bits(pte, 52) ? ~mask(16) : ~mask(12);
default: panic("bad level %d", level);
}
}
Addr
V8PageTableOps4k::walkMask(unsigned level) const
{
switch (level) {
case 0: return ~mask(39);
case 1: return ~mask(30);
case 2: return ~mask(21);
case 3: return ~mask(12);
default: panic("bad level %d", level);
}
}
unsigned
V8PageTableOps4k::firstLevel(uint8_t tsz) const
{
if (tsz >= 16 && tsz <= 24) return 0;
if (tsz >= 25 && tsz <= 33) return 1;
if (tsz >= 34 && tsz <= 39) return 2;
panic("Unsupported TnSZ: %d\n", tsz);
}
unsigned
V8PageTableOps4k::lastLevel() const
{
return 3;
}
bool
V8PageTableOps16k::isValid(pte_t pte, unsigned level) const
{
switch (level) {
case 0: return pte & 0x1;
case 1: return pte & 0x1;
case 2: return pte & 0x1;
case 3: return (pte & 0x1) && (pte & 0x2);
default: panic("bad level %d", level);
}
}
bool
V8PageTableOps16k::isLeaf(pte_t pte, unsigned level) const
{
switch (level) {
case 0: return false;
case 1: return false;
case 2: return !(pte & 0x2);
case 3: return true;
default: panic("bad level %d", level);
}
}
bool
V8PageTableOps16k::isWritable(pte_t pte, unsigned level, bool stage2) const
{
return stage2 ? bits(pte, 7, 6) == 3 : bits(pte, 7) == 0;
}
Addr
V8PageTableOps16k::nextLevelPointer(pte_t pte, unsigned level) const
{
if (isLeaf(pte, level)) {
switch (level) {
// no level 0 here
case 1: return mbits(pte, 47, 36);
case 2: return mbits(pte, 47, 25);
case 3: return mbits(pte, 47, 14);
default: panic("bad level %d", level);
}
} else {
return mbits(pte, 47, 14);
}
}
Addr
V8PageTableOps16k::index(Addr va, unsigned level) const
{
switch (level) {
case 0: return bits(va, 47, 47) << 3; break;
case 1: return bits(va, 46, 36) << 3; break;
case 2: return bits(va, 35, 25) << 3; break;
case 3: return bits(va, 24, 14) << 3; break;
default: panic("bad level %d", level);
}
}
Addr
V8PageTableOps16k::pageMask(pte_t pte, unsigned level) const
{
switch (level) {
// no level 0 here
case 1: return ~mask(36);
// 16K granule supports contiguous entries also at L2; - 1G
case 2: return bits(pte, 52) ? ~mask(30) : ~mask(25);
// as well as at L3; - 2M
case 3: return bits(pte, 52) ? ~mask(21) : ~mask(14);
default: panic("bad level %d", level);
}
}
Addr
V8PageTableOps16k::walkMask(unsigned level) const
{
switch (level) {
case 0: return ~mask(47);
case 1: return ~mask(36);
case 2: return ~mask(25);
case 3: return ~mask(14);
default: panic("bad level %d", level);
}
}
unsigned
V8PageTableOps16k::firstLevel(uint8_t tsz) const
{
if (tsz == 16) return 0;
if (tsz >= 17 && tsz <= 27) return 1;
if (tsz >= 28 && tsz <= 38) return 2;
if (tsz == 39) return 3;
panic("Unsupported TnSZ: %d\n", tsz);
}
unsigned
V8PageTableOps16k::lastLevel() const
{
return 3;
}
bool
V8PageTableOps64k::isValid(pte_t pte, unsigned level) const
{
switch (level) {
case 1: return pte & 0x1;
case 2: return pte & 0x1;
case 3: return (pte & 0x1) && (pte & 0x2);
default: panic("bad level %d", level);
}
}
bool
V8PageTableOps64k::isLeaf(pte_t pte, unsigned level) const
{
switch (level) {
case 1: return false;
case 2: return !(pte & 0x2);
case 3: return true;
default: panic("bad level %d", level);
}
}
bool
V8PageTableOps64k::isWritable(pte_t pte, unsigned level, bool stage2) const
{
return stage2 ? bits(pte, 7, 6)==3 : bits(pte, 7)==0;
}
Addr
V8PageTableOps64k::nextLevelPointer(pte_t pte, unsigned level) const
{
if (isLeaf(pte, level)) {
switch (level) {
// no level 1 here
case 2: return mbits(pte, 47, 29);
case 3: return mbits(pte, 47, 16);
default: panic("bad level %d", level);
}
} else {
return mbits(pte, 47, 16);
}
}
Addr
V8PageTableOps64k::index(Addr va, unsigned level) const
{
switch (level) {
case 1: return bits(va, 47, 42) << 3; break;
case 2: return bits(va, 41, 29) << 3; break;
case 3: return bits(va, 28, 16) << 3; break;
default: panic("bad level %d", level);
}
}
Addr
V8PageTableOps64k::pageMask(pte_t pte, unsigned level) const
{
switch (level) {
// no level 1 here
case 2: return ~mask(29);
case 3: return bits(pte, 52) ? ~mask(21) : ~mask(16);
default: panic("bad level %d", level);
}
}
Addr
V8PageTableOps64k::walkMask(unsigned level) const
{
switch (level) {
case 1: return ~mask(42);
case 2: return ~mask(29);
case 3: return ~mask(16);
default: panic("bad level %d", level);
}
}
unsigned
V8PageTableOps64k::firstLevel(uint8_t tsz) const
{
if (tsz >= 12 && tsz <= 21) return 1;
if (tsz >= 22 && tsz <= 34) return 2;
if (tsz >= 35 && tsz <= 39) return 3;
panic("Unsupported TnSZ: %d\n", tsz);
}
unsigned
V8PageTableOps64k::lastLevel() const
{
return 3;
}