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|
/*
* Copyright (c) 2014, 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.
*
* Authors: Stan Czerniawski
* Damian Richardson
*/
#include "dev/arm/smmu_v3_caches.hh"
#include <numeric>
#include "base/bitfield.hh"
#include "base/intmath.hh"
#include "base/logging.hh"
#include "sim/stats.hh"
// taken from hex expansion of pi
#define SMMUTLB_SEED 0xEA752DFE
#define ARMARCHTLB_SEED 0x8B021FA1
#define IPACACHE_SEED 0xE5A0CC0F
#define CONFIGCACHE_SEED 0xB56F74E8
#define WALKCACHE_SEED 0x18ACF3D6
/*
* BaseCache
*
* TODO: move more code into this base class to reduce duplication.
*/
SMMUv3BaseCache::SMMUv3BaseCache(const std::string &policy_name, uint32_t seed) :
replacementPolicy(decodePolicyName(policy_name)),
nextToReplace(0),
random(seed),
useStamp(0)
{}
int
SMMUv3BaseCache::decodePolicyName(const std::string &policy_name)
{
if (policy_name == "rr") {
return SMMU_CACHE_REPL_ROUND_ROBIN;
} else if (policy_name == "rand") {
return SMMU_CACHE_REPL_RANDOM;
} else if (policy_name == "lru") {
return SMMU_CACHE_REPL_LRU;
} else {
panic("Unknown cache replacement policy '%s'\n", policy_name);
}
}
void
SMMUv3BaseCache::regStats(const std::string &name)
{
using namespace Stats;
averageLookups
.name(name + ".averageLookups")
.desc("Average number lookups per second")
.flags(pdf);
totalLookups
.name(name + ".totalLookups")
.desc("Total number of lookups")
.flags(pdf);
averageLookups = totalLookups / simSeconds;
averageMisses
.name(name + ".averageMisses")
.desc("Average number misses per second")
.flags(pdf);
totalMisses
.name(name + ".totalMisses")
.desc("Total number of misses")
.flags(pdf);
averageMisses = totalMisses / simSeconds;
averageUpdates
.name(name + ".averageUpdates")
.desc("Average number updates per second")
.flags(pdf);
totalUpdates
.name(name + ".totalUpdates")
.desc("Total number of updates")
.flags(pdf);
averageUpdates = totalUpdates / simSeconds;
averageHitRate
.name(name + ".averageHitRate")
.desc("Average hit rate")
.flags(pdf);
averageHitRate = (totalLookups - totalMisses) / totalLookups;
insertions
.name(name + ".insertions")
.desc("Number of insertions (not replacements)")
.flags(pdf);
}
/*
* SMMUTLB
*/
SMMUTLB::SMMUTLB(unsigned numEntries, unsigned _associativity,
const std::string &policy)
:
SMMUv3BaseCache(policy, SMMUTLB_SEED),
associativity(_associativity)
{
if (associativity == 0)
associativity = numEntries; // fully associative
if (numEntries == 0)
fatal("SMMUTLB must have at least one entry\n");
if (associativity > numEntries)
fatal("SMMUTLB associativity cannot be higher than "
"its number of entries\n");
unsigned num_sets = numEntries / associativity;
if (num_sets*associativity != numEntries)
fatal("Number of SMMUTLB entries must be divisible "
"by its associativity\n");
Entry e;
e.valid = false;
Set set(associativity, e);
sets.resize(num_sets, set);
}
const SMMUTLB::Entry*
SMMUTLB::lookup(uint32_t sid, uint32_t ssid,
Addr va, bool updStats)
{
const Entry *result = NULL;
Set &set = sets[pickSetIdx(va)];
for (size_t i = 0; i < set.size(); i++) {
const Entry &e = set[i];
if (e.valid && (e.va & e.vaMask) == (va & e.vaMask) &&
e.sid==sid && e.ssid==ssid)
{
if (result != NULL)
panic("SMMUTLB: duplicate entry found!\n");
result = &e;
break;
}
}
if (updStats) {
if (result)
result->lastUsed = useStamp++;
totalLookups++;
if (result == NULL)
totalMisses++;
}
return result;
}
const SMMUTLB::Entry*
SMMUTLB::lookupAnyVA(uint32_t sid, uint32_t ssid, bool updStats)
{
const Entry *result = NULL;
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
const Entry &e = set[i];
if (e.valid && e.sid==sid && e.ssid==ssid) {
result = &e;
break;
}
}
}
if (updStats) {
totalLookups++;
if (result == NULL)
totalMisses++;
}
return result;
}
void
SMMUTLB::store(const Entry &incoming, AllocPolicy alloc)
{
if (!incoming.valid)
panic("Tried to store an invalid entry\n");
incoming.lastUsed = 0;
const Entry *existing =
lookup(incoming.sid, incoming.ssid, incoming.va, false);
if (existing) {
*const_cast<Entry *> (existing) = incoming;
} else {
Set &set = sets[pickSetIdx(incoming.va)];
set[pickEntryIdxToReplace(set, alloc)] = incoming;
}
totalUpdates++;
}
void
SMMUTLB::invalidateSSID(uint32_t sid, uint32_t ssid)
{
Set &set = sets[pickSetIdx(sid, ssid)];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if (e.sid == sid && e.ssid == ssid)
e.valid = false;
}
}
void
SMMUTLB::invalidateSID(uint32_t sid)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if (e.sid == sid)
e.valid = false;
}
}
}
void
SMMUTLB::invalidateVA(Addr va, uint16_t asid, uint16_t vmid)
{
Set &set = sets[pickSetIdx(va)];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if ((e.va & e.vaMask) == (va & e.vaMask) &&
e.asid==asid && e.vmid==vmid)
{
e.valid = false;
}
}
}
void
SMMUTLB::invalidateVAA(Addr va, uint16_t vmid)
{
Set &set = sets[pickSetIdx(va)];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if ((e.va & e.vaMask) == (va & e.vaMask) && e.vmid==vmid)
e.valid = false;
}
}
void
SMMUTLB::invalidateASID(uint16_t asid, uint16_t vmid)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if (e.asid==asid && e.vmid==vmid)
e.valid = false;
}
}
}
void
SMMUTLB::invalidateVMID(uint16_t vmid)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if (e.vmid == vmid)
e.valid = false;
}
}
}
void
SMMUTLB::invalidateAll()
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++)
set[i].valid = false;
}
}
size_t
SMMUTLB::pickSetIdx(Addr va) const
{
return (va >> 12) % sets.size();
}
size_t
SMMUTLB::pickSetIdx(uint32_t sid, uint32_t ssid) const
{
return (sid^ssid) % sets.size();
}
size_t
SMMUTLB::pickEntryIdxToReplace(const Set &set, AllocPolicy alloc)
{
if (alloc == ALLOC_LAST_WAY)
return associativity - 1;
uint32_t lru_tick = UINT32_MAX;
size_t lru_idx = 0;
size_t max_idx =
alloc==ALLOC_ANY_BUT_LAST_WAY ?
set.size()-1 : set.size();
for (size_t i = 0; i < max_idx; i++) {
if (!set[i].valid) {
insertions++;
return i;
}
if (set[i].lastUsed < lru_tick) {
lru_idx = i;
lru_tick = set[i].lastUsed;
}
}
switch (replacementPolicy) {
case SMMU_CACHE_REPL_ROUND_ROBIN:
switch (alloc) {
case ALLOC_ANY_WAY:
return nextToReplace = ((nextToReplace+1) % associativity);
case ALLOC_ANY_BUT_LAST_WAY:
return nextToReplace = ((nextToReplace+1) % (associativity-1));
default:
panic("Unknown allocation mode %d\n", alloc);
}
case SMMU_CACHE_REPL_RANDOM:
switch (alloc) {
case ALLOC_ANY_WAY:
return random.random<size_t>(0, associativity-1);
case ALLOC_ANY_BUT_LAST_WAY:
return random.random<size_t>(0, associativity-2);
default:
panic("Unknown allocation mode %d\n", alloc);
}
case SMMU_CACHE_REPL_LRU:
return lru_idx;
default:
panic("Unknown replacement policy %d\n", replacementPolicy);
}
}
/*
* ARMArchTLB
*/
ARMArchTLB::ARMArchTLB(unsigned numEntries, unsigned _associativity,
const std::string &policy)
:
SMMUv3BaseCache(policy, ARMARCHTLB_SEED),
associativity(_associativity)
{
if (associativity == 0)
associativity = numEntries; // fully associative
if (numEntries == 0)
fatal("ARMArchTLB must have at least one entry\n");
if (associativity > numEntries)
fatal("ARMArchTLB associativity cannot be higher than "
"its number of entries\n");
unsigned num_sets = numEntries / associativity;
if (num_sets*associativity != numEntries)
fatal("Number of ARMArchTLB entries must be divisible "
"by its associativity\n");
Entry e;
e.valid = false;
Set set(associativity, e);
sets.resize(num_sets, set);
}
const ARMArchTLB::Entry *
ARMArchTLB::lookup(Addr va, uint16_t asid, uint16_t vmid, bool updStats)
{
const Entry *result = NULL;
Set &set = sets[pickSetIdx(va, asid, vmid)];
for (size_t i = 0; i < set.size(); i++) {
const Entry &e = set[i];
if (e.valid && (e.va & e.vaMask) == (va & e.vaMask) &&
e.asid==asid && e.vmid==vmid)
{
if (result != NULL)
panic("ARMArchTLB: duplicate entry found!\n");
result = &e;
break;
}
}
if (updStats) {
if (result)
result->lastUsed = useStamp++;
totalLookups++;
if (result == NULL)
totalMisses++;
}
return result;
}
void
ARMArchTLB::store(const Entry &incoming)
{
if (!incoming.valid)
panic("Tried to store an invalid entry\n");
incoming.lastUsed = 0;
const Entry *existing =
lookup(incoming.va, incoming.asid, incoming.vmid, false);
if (existing) {
*const_cast<Entry *> (existing) = incoming;
} else {
Set &set = sets[pickSetIdx(incoming.va, incoming.asid, incoming.vmid)];
set[pickEntryIdxToReplace(set)] = incoming;
}
totalUpdates++;
}
void
ARMArchTLB::invalidateVA(Addr va, uint16_t asid, uint16_t vmid)
{
Set &set = sets[pickSetIdx(va, asid, vmid)];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if ((e.va & e.vaMask) == (va & e.vaMask) &&
e.asid==asid && e.vmid==vmid)
{
e.valid = false;
}
}
}
void
ARMArchTLB::invalidateVAA(Addr va, uint16_t vmid)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if ((e.va & e.vaMask) == (va & e.vaMask) && e.vmid==vmid)
e.valid = false;
}
}
}
void
ARMArchTLB::invalidateASID(uint16_t asid, uint16_t vmid)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if (e.asid==asid && e.vmid==vmid)
e.valid = false;
}
}
}
void
ARMArchTLB::invalidateVMID(uint16_t vmid)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if (e.vmid == vmid)
e.valid = false;
}
}
}
void
ARMArchTLB::invalidateAll()
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++)
set[i].valid = false;
}
}
size_t
ARMArchTLB::pickSetIdx(Addr va, uint16_t asid, uint16_t vmid) const
{
return ((va >> 12) ^ asid ^ vmid) % sets.size();
}
size_t
ARMArchTLB::pickEntryIdxToReplace(const Set &set)
{
size_t lru_idx = 0;
uint32_t lru_tick = UINT32_MAX;
for (size_t i = 0; i < set.size(); i++) {
if (!set[i].valid) {
insertions++;
return i;
}
if (set[i].lastUsed < lru_tick) {
lru_idx = i;
lru_tick = set[i].lastUsed;
}
}
switch (replacementPolicy) {
case SMMU_CACHE_REPL_ROUND_ROBIN:
return nextToReplace = ((nextToReplace+1) % associativity);
case SMMU_CACHE_REPL_RANDOM:
return random.random<size_t>(0, associativity-1);
case SMMU_CACHE_REPL_LRU:
return lru_idx;
default:
panic("Unknown replacement policy %d\n", replacementPolicy);
}
}
/*
* IPACache
*/
IPACache::IPACache(unsigned numEntries, unsigned _associativity,
const std::string &policy)
:
SMMUv3BaseCache(policy, IPACACHE_SEED),
associativity(_associativity)
{
if (associativity == 0)
associativity = numEntries; // fully associative
if (numEntries == 0)
fatal("IPACache must have at least one entry\n");
if (associativity > numEntries)
fatal("IPACache associativity cannot be higher than "
"its number of entries\n");
unsigned num_sets = numEntries / associativity;
if (num_sets*associativity != numEntries)
fatal("Number of IPACache entries must be divisible "
"by its associativity\n");
Entry e;
e.valid = false;
Set set(associativity, e);
sets.resize(num_sets, set);
}
const IPACache::Entry*
IPACache::lookup(Addr ipa, uint16_t vmid, bool updStats)
{
const Entry *result = NULL;
Set &set = sets[pickSetIdx(ipa, vmid)];
for (size_t i = 0; i < set.size(); i++) {
const Entry &e = set[i];
if (e.valid && (e.ipa & e.ipaMask) == (ipa & e.ipaMask) &&
e.vmid==vmid)
{
if (result != NULL)
panic("IPACache: duplicate entry found!\n");
result = &e;
break;
}
}
if (updStats) {
if (result)
result->lastUsed = useStamp++;
totalLookups++;
if (result == NULL)
totalMisses++;
}
return result;
}
void
IPACache::store(const Entry &incoming)
{
if (!incoming.valid)
panic("Tried to store an invalid entry\n");
incoming.lastUsed = 0;
const Entry *existing = lookup(incoming.ipa, incoming.vmid, false);
if (existing) {
*const_cast<Entry *> (existing) = incoming;
} else {
Set &set = sets[pickSetIdx(incoming.ipa, incoming.vmid)];
set[pickEntryIdxToReplace(set)] = incoming;
}
totalUpdates++;
}
void
IPACache::invalidateIPA(Addr ipa, uint16_t vmid)
{
Set &set = sets[pickSetIdx(ipa, vmid)];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if ((e.ipa & e.ipaMask) == (ipa & e.ipaMask) && e.vmid==vmid)
e.valid = false;
}
}
void
IPACache::invalidateIPAA(Addr ipa)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if ((e.ipa & e.ipaMask) == (ipa & e.ipaMask))
e.valid = false;
}
}
}
void
IPACache::invalidateVMID(uint16_t vmid)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if (e.vmid == vmid)
e.valid = false;
}
}
}
void
IPACache::invalidateAll()
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++)
set[i].valid = false;
}
}
size_t
IPACache::pickSetIdx(Addr va, uint16_t vmid) const
{
return ((va >> 12) ^ vmid) % sets.size();
}
size_t
IPACache::pickEntryIdxToReplace(const Set &set)
{
size_t lru_idx = 0;
uint32_t lru_tick = UINT32_MAX;
for (size_t i = 0; i < set.size(); i++) {
if (!set[i].valid) {
insertions++;
return i;
}
if (set[i].lastUsed < lru_tick) {
lru_idx = i;
lru_tick = set[i].lastUsed;
}
}
switch (replacementPolicy) {
case SMMU_CACHE_REPL_ROUND_ROBIN:
return nextToReplace = ((nextToReplace+1) % associativity);
case SMMU_CACHE_REPL_RANDOM:
return random.random<size_t>(0, associativity-1);
case SMMU_CACHE_REPL_LRU:
return lru_idx;
default:
panic("Unknown replacement policy %d\n", replacementPolicy);
}
}
/*
* ConfigCache
*/
ConfigCache::ConfigCache(unsigned numEntries, unsigned _associativity,
const std::string &policy)
:
SMMUv3BaseCache(policy, CONFIGCACHE_SEED),
associativity(_associativity)
{
if (associativity == 0)
associativity = numEntries; // fully associative
if (numEntries == 0)
fatal("ConfigCache must have at least one entry\n");
if (associativity > numEntries)
fatal("ConfigCache associativity cannot be higher than "
"its number of entries\n");
unsigned num_sets = numEntries / associativity;
if (num_sets*associativity != numEntries)
fatal("Number of ConfigCache entries must be divisible "
"by its associativity\n");
Entry e;
e.valid = false;
Set set(associativity, e);
sets.resize(num_sets, set);
}
const ConfigCache::Entry *
ConfigCache::lookup(uint32_t sid, uint32_t ssid, bool updStats)
{
const Entry *result = NULL;
Set &set = sets[pickSetIdx(sid, ssid)];
for (size_t i = 0; i < set.size(); i++) {
const Entry &e = set[i];
if (e.valid && e.sid==sid && e.ssid==ssid)
{
if (result != NULL)
panic("ConfigCache: duplicate entry found!\n");
result = &e;
break;
}
}
if (updStats) {
if (result)
result->lastUsed = useStamp++;
totalLookups++;
if (result == NULL)
totalMisses++;
}
return result;
}
void
ConfigCache::store(const Entry &incoming)
{
if (!incoming.valid)
panic("Tried to store an invalid entry\n");
incoming.lastUsed = 0;
const Entry *existing = lookup(incoming.sid, incoming.ssid, false);
if (existing) {
*const_cast<Entry *> (existing) = incoming;
} else {
Set &set = sets[pickSetIdx(incoming.sid, incoming.ssid)];
set[pickEntryIdxToReplace(set)] = incoming;
}
totalUpdates++;
}
void
ConfigCache::invalidateSSID(uint32_t sid, uint32_t ssid)
{
Set &set = sets[pickSetIdx(sid, ssid)];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if (e.sid==sid && e.ssid==ssid)
e.valid = false;
}
}
void
ConfigCache::invalidateSID(uint32_t sid)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if (e.sid == sid)
e.valid = false;
}
}
}
void
ConfigCache::invalidateAll()
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++)
set[i].valid = false;
}
}
size_t
ConfigCache::pickSetIdx(uint32_t sid, uint32_t ssid) const
{
return (sid^ssid) % sets.size();
}
size_t
ConfigCache::pickEntryIdxToReplace(const Set &set)
{
size_t lru_idx = 0;
uint32_t lru_tick = UINT32_MAX;
for (size_t i = 0; i < set.size(); i++) {
if (!set[i].valid) {
insertions++;
return i;
}
if (set[i].lastUsed < lru_tick) {
lru_idx = i;
lru_tick = set[i].lastUsed;
}
}
switch (replacementPolicy) {
case SMMU_CACHE_REPL_ROUND_ROBIN:
return nextToReplace = ((nextToReplace+1) % associativity);
case SMMU_CACHE_REPL_RANDOM:
return random.random<size_t>(0, associativity-1);
case SMMU_CACHE_REPL_LRU:
return lru_idx;
default:
panic("Unknown replacement policy %d\n", replacementPolicy);
}
}
/*
* WalkCache
*/
WalkCache::WalkCache(const std::array<unsigned, 2*WALK_CACHE_LEVELS> &_sizes,
unsigned _associativity, const std::string &policy) :
SMMUv3BaseCache(policy, WALKCACHE_SEED),
associativity(_associativity),
sizes()
{
unsigned numEntries = std::accumulate(&_sizes[0],
&_sizes[2*WALK_CACHE_LEVELS], 0);
if (associativity == 0)
associativity = numEntries; // fully associative
if (numEntries == 0)
fatal("WalkCache must have at least one entry\n");
for (size_t i = 0; i < 2*WALK_CACHE_LEVELS; i++){
if (_sizes[i] % associativity != 0)
fatal("Number of WalkCache entries at each level must be "
"divisible by WalkCache associativity\n");
sizes[i] = _sizes[i] / associativity;
offsets[i] = i==0 ? 0 : offsets[i-1] + sizes[i-1];
}
if (associativity > numEntries)
fatal("WalkCache associativity cannot be higher than "
"its number of entries\n");
unsigned num_sets = numEntries / associativity;
if (num_sets*associativity != numEntries)
fatal("Number of WalkCache entries must be divisible "
"by its associativity\n");
Entry e;
e.valid = false;
Set set(associativity, e);
sets.resize(num_sets, set);
}
const WalkCache::Entry*
WalkCache::lookup(Addr va, Addr vaMask,
uint16_t asid, uint16_t vmid,
unsigned stage, unsigned level,
bool updStats)
{
const Entry *result = NULL;
Set &set = sets[pickSetIdx(va, vaMask, stage, level)];
for (size_t i = 0; i < set.size(); i++) {
const Entry &e = set[i];
if (e.valid && (e.va & e.vaMask) == (va & e.vaMask) &&
e.asid==asid && e.vmid==vmid && e.stage==stage && e.level==level)
{
if (result != NULL)
panic("WalkCache: duplicate entry found!\n");
result = &e;
break;
}
}
if (updStats) {
if (result)
result->lastUsed = useStamp++;
totalLookups++;
if (result == NULL)
totalMisses++;
lookupsByStageLevel[stage-1][level]++;
totalLookupsByStageLevel[stage-1][level]++;
if (result == NULL) {
missesByStageLevel[stage-1][level]++;
totalMissesByStageLevel[stage-1][level]++;
}
}
return result;
}
void
WalkCache::store(const Entry &incoming)
{
if (!incoming.valid)
panic("Tried to store an invalid entry\n");
assert(incoming.stage==1 || incoming.stage==2);
assert(incoming.level<=WALK_CACHE_LEVELS);
incoming.lastUsed = 0;
const Entry *existing = lookup(incoming.va, incoming.vaMask,
incoming.asid, incoming.vmid,
incoming.stage, incoming.level, false);
if (existing) {
*const_cast<Entry *> (existing) = incoming;
} else {
Set &set = sets[pickSetIdx(incoming.va, incoming.vaMask,
incoming.stage, incoming.level)];
set[pickEntryIdxToReplace(set, incoming.stage, incoming.level)] =
incoming;
}
totalUpdates++;
updatesByStageLevel[incoming.stage-1][incoming.level]++;
totalUpdatesByStageLevel[incoming.stage-1][incoming.level]++;
}
void
WalkCache::invalidateVA(Addr va, uint16_t asid, uint16_t vmid,
const bool leaf_only)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if ((!leaf_only || e.leaf) && (e.va & e.vaMask) == (va & e.vaMask)
&& e.asid == asid && e.vmid == vmid)
{
e.valid = false;
}
}
}
}
void
WalkCache::invalidateVAA(Addr va, uint16_t vmid, const bool leaf_only)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if ((!leaf_only || e.leaf) && (e.va & e.vaMask) == (va & e.vaMask)
&& e.vmid == vmid)
{
e.valid = false;
}
}
}
}
void
WalkCache::invalidateASID(uint16_t asid, uint16_t vmid)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if (e.asid==asid && e.vmid==vmid)
e.valid = false;
}
}
}
void
WalkCache::invalidateVMID(uint16_t vmid)
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++) {
Entry &e = set[i];
if (e.vmid == vmid)
e.valid = false;
}
}
}
void
WalkCache::invalidateAll()
{
for (size_t s = 0; s < sets.size(); s++) {
Set &set = sets[s];
for (size_t i = 0; i < set.size(); i++)
set[i].valid = false;
}
}
size_t
WalkCache::pickSetIdx(Addr va, Addr vaMask,
unsigned stage, unsigned level) const
{
(void) stage;
int size, offset;
switch (stage) {
case 1:
assert (level<=3);
size = sizes[0*WALK_CACHE_LEVELS + level];
offset = offsets[0*WALK_CACHE_LEVELS + level];
break;
case 2:
assert (level<=3);
size = sizes[1*WALK_CACHE_LEVELS + level];
offset = offsets[1*WALK_CACHE_LEVELS + level];
break;
default:
panic("bad stage");
}
return ((va >> findLsbSet(vaMask)) % size) + offset;
}
size_t
WalkCache::pickEntryIdxToReplace(const Set &set,
unsigned stage, unsigned level)
{
size_t lru_idx = 0;
uint32_t lru_tick = UINT32_MAX;
for (size_t i = 0; i < set.size(); i++) {
if (!set[i].valid) {
insertions++;
insertionsByStageLevel[stage-1][level]++;
return i;
}
if (set[i].lastUsed < lru_tick) {
lru_idx = i;
lru_tick = set[i].lastUsed;
}
}
switch (replacementPolicy) {
case SMMU_CACHE_REPL_ROUND_ROBIN:
return nextToReplace = ((nextToReplace+1) % associativity);
case SMMU_CACHE_REPL_RANDOM:
return random.random<size_t>(0, associativity-1);
case SMMU_CACHE_REPL_LRU:
return lru_idx;
default:
panic("Unknown replacement policy %d\n", replacementPolicy);
}
}
void
WalkCache::regStats(const std::string &name)
{
using namespace Stats;
SMMUv3BaseCache::regStats(name);
for (int s = 0; s < 2; s++) {
for (int l = 0; l < WALK_CACHE_LEVELS; l++) {
averageLookupsByStageLevel[s][l]
.name(csprintf("%s.averageLookupsS%dL%d", name, s+1, l))
.desc("Average number lookups per second")
.flags(pdf);
totalLookupsByStageLevel[s][l]
.name(csprintf("%s.totalLookupsS%dL%d", name, s+1, l))
.desc("Total number of lookups")
.flags(pdf);
averageLookupsByStageLevel[s][l] =
totalLookupsByStageLevel[s][l] / simSeconds;
averageMissesByStageLevel[s][l]
.name(csprintf("%s.averageMissesS%dL%d", name, s+1, l))
.desc("Average number misses per second")
.flags(pdf);
totalMissesByStageLevel[s][l]
.name(csprintf("%s.totalMissesS%dL%d", name, s+1, l))
.desc("Total number of misses")
.flags(pdf);
averageMissesByStageLevel[s][l] =
totalMissesByStageLevel[s][l] / simSeconds;
averageUpdatesByStageLevel[s][l]
.name(csprintf("%s.averageUpdatesS%dL%d", name, s+1, l))
.desc("Average number updates per second")
.flags(pdf);
totalUpdatesByStageLevel[s][l]
.name(csprintf("%s.totalUpdatesS%dL%d", name, s+1, l))
.desc("Total number of updates")
.flags(pdf);
averageUpdatesByStageLevel[s][l] =
totalUpdatesByStageLevel[s][l] / simSeconds;
averageHitRateByStageLevel[s][l]
.name(csprintf("%s.averageHitRateS%dL%d", name, s+1, l))
.desc("Average hit rate")
.flags(pdf);
averageHitRateByStageLevel[s][l] =
(totalLookupsByStageLevel[s][l] -
totalMissesByStageLevel[s][l])
/ totalLookupsByStageLevel[s][l];
insertionsByStageLevel[s][l]
.name(csprintf("%s.insertionsS%dL%d", name, s+1, l))
.desc("Number of insertions (not replacements)")
.flags(pdf);
}
}
}
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