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|
/*
* Copyright (c) 2010, 2013, 2015-2017 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) 2005 The Regents of The University of Michigan
* 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.
*
* Authors: Ali Saidi
* Prakash Ramrakhyani
*/
#include "dev/arm/gic_pl390.hh"
#include "base/trace.hh"
#include "debug/Checkpoint.hh"
#include "debug/GIC.hh"
#include "debug/IPI.hh"
#include "debug/Interrupt.hh"
#include "dev/terminal.hh"
#include "mem/packet.hh"
#include "mem/packet_access.hh"
const AddrRange Pl390::GICD_IGROUPR (0x080, 0x0ff);
const AddrRange Pl390::GICD_ISENABLER (0x100, 0x17f);
const AddrRange Pl390::GICD_ICENABLER (0x180, 0x1ff);
const AddrRange Pl390::GICD_ISPENDR (0x200, 0x27f);
const AddrRange Pl390::GICD_ICPENDR (0x280, 0x2ff);
const AddrRange Pl390::GICD_ISACTIVER (0x300, 0x37f);
const AddrRange Pl390::GICD_ICACTIVER (0x380, 0x3ff);
const AddrRange Pl390::GICD_IPRIORITYR(0x400, 0x7ff);
const AddrRange Pl390::GICD_ITARGETSR (0x800, 0xbff);
const AddrRange Pl390::GICD_ICFGR (0xc00, 0xcff);
Pl390::Pl390(const Params *p)
: BaseGic(p),
distRange(RangeSize(p->dist_addr, DIST_SIZE)),
cpuRange(RangeSize(p->cpu_addr, CPU_SIZE)),
addrRanges{distRange, cpuRange},
distPioDelay(p->dist_pio_delay),
cpuPioDelay(p->cpu_pio_delay), intLatency(p->int_latency),
enabled(false), haveGem5Extensions(p->gem5_extensions),
itLines(p->it_lines),
intEnabled {}, pendingInt {}, activeInt {},
intPriority {}, cpuTarget {}, intConfig {},
cpuSgiPending {}, cpuSgiActive {},
cpuSgiPendingExt {}, cpuSgiActiveExt {},
cpuPpiPending {}, cpuPpiActive {},
irqEnable(false),
pendingDelayedInterrupts(0)
{
for (int x = 0; x < CPU_MAX; x++) {
iccrpr[x] = 0xff;
cpuEnabled[x] = false;
cpuPriority[x] = 0xff;
cpuBpr[x] = GICC_BPR_MINIMUM;
// Initialize cpu highest int
cpuHighestInt[x] = SPURIOUS_INT;
postIntEvent[x] =
new EventFunctionWrapper([this, x]{ postDelayedInt(x); },
"Post Interrupt to CPU");
}
DPRINTF(Interrupt, "cpuEnabled[0]=%d cpuEnabled[1]=%d\n", cpuEnabled[0],
cpuEnabled[1]);
gem5ExtensionsEnabled = false;
}
Pl390::~Pl390()
{
for (int x = 0; x < CPU_MAX; x++)
delete postIntEvent[x];
}
Tick
Pl390::read(PacketPtr pkt)
{
const Addr addr = pkt->getAddr();
if (distRange.contains(addr))
return readDistributor(pkt);
else if (cpuRange.contains(addr))
return readCpu(pkt);
else
panic("Read to unknown address %#x\n", pkt->getAddr());
}
Tick
Pl390::write(PacketPtr pkt)
{
const Addr addr = pkt->getAddr();
if (distRange.contains(addr))
return writeDistributor(pkt);
else if (cpuRange.contains(addr))
return writeCpu(pkt);
else
panic("Write to unknown address %#x\n", pkt->getAddr());
}
Tick
Pl390::readDistributor(PacketPtr pkt)
{
const Addr daddr = pkt->getAddr() - distRange.start();
const ContextID ctx = pkt->req->contextId();
DPRINTF(GIC, "gic distributor read register %#x\n", daddr);
const uint32_t resp = readDistributor(ctx, daddr, pkt->getSize());
switch (pkt->getSize()) {
case 1:
pkt->set<uint8_t>(resp);
break;
case 2:
pkt->set<uint16_t>(resp);
break;
case 4:
pkt->set<uint32_t>(resp);
break;
default:
panic("Invalid size while reading Distributor regs in GIC: %d\n",
pkt->getSize());
}
pkt->makeAtomicResponse();
return distPioDelay;
}
uint32_t
Pl390::readDistributor(ContextID ctx, Addr daddr, size_t resp_sz)
{
if (GICD_IGROUPR.contains(daddr)) {
return 0; // unimplemented; RAZ (read as zero)
}
if (GICD_ISENABLER.contains(daddr)) {
uint32_t ix = (daddr - GICD_ISENABLER.start()) >> 2;
assert(ix < 32);
return getIntEnabled(ctx, ix);
}
if (GICD_ICENABLER.contains(daddr)) {
uint32_t ix = (daddr - GICD_ICENABLER.start()) >> 2;
assert(ix < 32);
return getIntEnabled(ctx, ix);
}
if (GICD_ISPENDR.contains(daddr)) {
uint32_t ix = (daddr - GICD_ISPENDR.start()) >> 2;
assert(ix < 32);
return getPendingInt(ctx, ix);
}
if (GICD_ICPENDR.contains(daddr)) {
uint32_t ix = (daddr - GICD_ICPENDR.start()) >> 2;
assert(ix < 32);
return getPendingInt(ctx, ix);
}
if (GICD_ISACTIVER.contains(daddr)) {
uint32_t ix = (daddr - GICD_ISACTIVER.start()) >> 2;
assert(ix < 32);
return getActiveInt(ctx, ix);
}
if (GICD_ICACTIVER.contains(daddr)) {
uint32_t ix = (daddr - GICD_ICACTIVER.start()) >> 2;
assert(ix < 32);
return getActiveInt(ctx, ix);
}
if (GICD_IPRIORITYR.contains(daddr)) {
Addr int_num = daddr - GICD_IPRIORITYR.start();
assert(int_num < INT_LINES_MAX);
DPRINTF(Interrupt, "Reading interrupt priority at int# %#x \n",int_num);
switch (resp_sz) {
default: // will panic() after return to caller anyway
case 1:
return getIntPriority(ctx, int_num);
case 2:
assert((int_num + 1) < INT_LINES_MAX);
return (getIntPriority(ctx, int_num) |
getIntPriority(ctx, int_num+1) << 8);
case 4:
assert((int_num + 3) < INT_LINES_MAX);
return (getIntPriority(ctx, int_num) |
getIntPriority(ctx, int_num+1) << 8 |
getIntPriority(ctx, int_num+2) << 16 |
getIntPriority(ctx, int_num+3) << 24);
}
}
if (GICD_ITARGETSR.contains(daddr)) {
Addr int_num = daddr - GICD_ITARGETSR.start();
DPRINTF(GIC, "Reading processor target register for int# %#x \n",
int_num);
assert(int_num < INT_LINES_MAX);
if (resp_sz == 1) {
return getCpuTarget(ctx, int_num);
} else {
assert(resp_sz == 4);
int_num = mbits(int_num, 31, 2);
return (getCpuTarget(ctx, int_num) |
getCpuTarget(ctx, int_num+1) << 8 |
getCpuTarget(ctx, int_num+2) << 16 |
getCpuTarget(ctx, int_num+3) << 24) ;
}
}
if (GICD_ICFGR.contains(daddr)) {
uint32_t ix = (daddr - GICD_ICFGR.start()) >> 2;
assert(ix < 64);
/** @todo software generated interrupts and PPIs
* can't be configured in some ways */
return intConfig[ix];
}
switch(daddr) {
case GICD_CTLR:
return enabled;
case GICD_TYPER:
/* The 0x100 is a made-up flag to show that gem5 extensions
* are available,
* write 0x200 to this register to enable it. */
return (((sys->numRunningContexts() - 1) << 5) |
(itLines/INT_BITS_MAX -1) |
(haveGem5Extensions ? 0x100 : 0x0));
case GICD_PIDR0:
//ARM defined DevID
return (GICD_400_PIDR_VALUE & 0xFF);
case GICD_PIDR1:
return ((GICD_400_PIDR_VALUE >> 8) & 0xFF);
case GICD_PIDR2:
return ((GICD_400_PIDR_VALUE >> 16) & 0xFF);
case GICD_PIDR3:
return ((GICD_400_PIDR_VALUE >> 24) & 0xFF);
case GICD_IIDR:
/* revision id is resorted to 1 and variant to 0*/
return GICD_400_IIDR_VALUE;
default:
panic("Tried to read Gic distributor at offset %#x\n", daddr);
break;
}
}
Tick
Pl390::readCpu(PacketPtr pkt)
{
const Addr daddr = pkt->getAddr() - cpuRange.start();
assert(pkt->req->hasContextId());
const ContextID ctx = pkt->req->contextId();
assert(ctx < sys->numRunningContexts());
DPRINTF(GIC, "gic cpu read register %#x cpu context: %d\n", daddr,
ctx);
pkt->set<uint32_t>(readCpu(ctx, daddr));
pkt->makeAtomicResponse();
return cpuPioDelay;
}
uint32_t
Pl390::readCpu(ContextID ctx, Addr daddr)
{
switch(daddr) {
case GICC_IIDR:
return GICC_400_IIDR_VALUE;
case GICC_CTLR:
return cpuEnabled[ctx];
case GICC_PMR:
return cpuPriority[ctx];
case GICC_BPR:
return cpuBpr[ctx];
case GICC_IAR:
if (enabled && cpuEnabled[ctx]) {
int active_int = cpuHighestInt[ctx];
IAR iar = 0;
iar.ack_id = active_int;
iar.cpu_id = 0;
if (active_int < SGI_MAX) {
// this is a software interrupt from another CPU
if (!gem5ExtensionsEnabled) {
panic_if(!cpuSgiPending[active_int],
"Interrupt %d active but no CPU generated it?\n",
active_int);
for (int x = 0; x < sys->numRunningContexts(); x++) {
// See which CPU generated the interrupt
uint8_t cpugen =
bits(cpuSgiPending[active_int], 7 + 8 * x, 8 * x);
if (cpugen & (1 << ctx)) {
iar.cpu_id = x;
break;
}
}
uint64_t sgi_num = ULL(1) << (ctx + 8 * iar.cpu_id);
cpuSgiActive[iar.ack_id] |= sgi_num;
cpuSgiPending[iar.ack_id] &= ~sgi_num;
} else {
uint64_t sgi_num = ULL(1) << iar.ack_id;
cpuSgiActiveExt[ctx] |= sgi_num;
cpuSgiPendingExt[ctx] &= ~sgi_num;
}
} else if (active_int < (SGI_MAX + PPI_MAX) ) {
uint32_t int_num = 1 << (cpuHighestInt[ctx] - SGI_MAX);
cpuPpiActive[ctx] |= int_num;
updateRunPri();
cpuPpiPending[ctx] &= ~int_num;
} else {
uint32_t int_num = 1 << intNumToBit(cpuHighestInt[ctx]);
getActiveInt(ctx, intNumToWord(cpuHighestInt[ctx])) |= int_num;
updateRunPri();
getPendingInt(ctx, intNumToWord(cpuHighestInt[ctx]))
&= ~int_num;
}
DPRINTF(Interrupt,"CPU %d reading IAR.id=%d IAR.cpu=%d, iar=0x%x\n",
ctx, iar.ack_id, iar.cpu_id, iar);
cpuHighestInt[ctx] = SPURIOUS_INT;
updateIntState(-1);
platform->intrctrl->clear(ctx, ArmISA::INT_IRQ, 0);
return iar;
} else {
return SPURIOUS_INT;
}
break;
case GICC_RPR:
return iccrpr[0];
case GICC_HPPIR:
panic("Need to implement HPIR");
break;
default:
panic("Tried to read Gic cpu at offset %#x\n", daddr);
break;
}
}
Tick
Pl390::writeDistributor(PacketPtr pkt)
{
const Addr daddr = pkt->getAddr() - distRange.start();
assert(pkt->req->hasContextId());
const ContextID ctx = pkt->req->contextId();
const size_t data_sz = pkt->getSize();
uint32_t pkt_data M5_VAR_USED;
switch (data_sz)
{
case 1:
pkt_data = pkt->get<uint8_t>();
break;
case 2:
pkt_data = pkt->get<uint16_t>();
break;
case 4:
pkt_data = pkt->get<uint32_t>();
break;
default:
panic("Invalid size when writing to priority regs in Gic: %d\n",
data_sz);
}
DPRINTF(GIC, "gic distributor write register %#x size %#x value %#x \n",
daddr, data_sz, pkt_data);
writeDistributor(ctx, daddr, pkt_data, data_sz);
pkt->makeAtomicResponse();
return distPioDelay;
}
void
Pl390::writeDistributor(ContextID ctx, Addr daddr, uint32_t data,
size_t data_sz)
{
if (GICD_IGROUPR.contains(daddr)) {
return; // unimplemented; WI (writes ignored)
}
if (GICD_ISENABLER.contains(daddr)) {
uint32_t ix = (daddr - GICD_ISENABLER.start()) >> 2;
assert(ix < 32);
getIntEnabled(ctx, ix) |= data;
return;
}
if (GICD_ICENABLER.contains(daddr)) {
uint32_t ix = (daddr - GICD_ICENABLER.start()) >> 2;
assert(ix < 32);
getIntEnabled(ctx, ix) &= ~data;
return;
}
if (GICD_ISPENDR.contains(daddr)) {
uint32_t ix = (daddr - GICD_ISPENDR.start()) >> 2;
auto mask = data;
if (ix == 0) mask &= SGI_MASK; // Don't allow SGIs to be changed
getPendingInt(ctx, ix) |= mask;
updateIntState(ix);
return;
}
if (GICD_ICPENDR.contains(daddr)) {
uint32_t ix = (daddr - GICD_ICPENDR.start()) >> 2;
auto mask = data;
if (ix == 0) mask &= SGI_MASK; // Don't allow SGIs to be changed
getPendingInt(ctx, ix) &= ~mask;
updateIntState(ix);
return;
}
if (GICD_ISACTIVER.contains(daddr)) {
uint32_t ix = (daddr - GICD_ISACTIVER.start()) >> 2;
getActiveInt(ctx, ix) |= data;
return;
}
if (GICD_ICACTIVER.contains(daddr)) {
uint32_t ix = (daddr - GICD_ICACTIVER.start()) >> 2;
getActiveInt(ctx, ix) &= ~data;
return;
}
if (GICD_IPRIORITYR.contains(daddr)) {
Addr int_num = daddr - GICD_IPRIORITYR.start();
switch(data_sz) {
case 1:
getIntPriority(ctx, int_num) = data;
break;
case 2: {
getIntPriority(ctx, int_num) = bits(data, 7, 0);
getIntPriority(ctx, int_num + 1) = bits(data, 15, 8);
break;
}
case 4: {
getIntPriority(ctx, int_num) = bits(data, 7, 0);
getIntPriority(ctx, int_num + 1) = bits(data, 15, 8);
getIntPriority(ctx, int_num + 2) = bits(data, 23, 16);
getIntPriority(ctx, int_num + 3) = bits(data, 31, 24);
break;
}
default:
panic("Invalid size when writing to priority regs in Gic: %d\n",
data_sz);
}
updateIntState(-1);
updateRunPri();
return;
}
if (GICD_ITARGETSR.contains(daddr)) {
Addr int_num = daddr - GICD_ITARGETSR.start();
// Interrupts 0-31 are read only
unsigned offset = SGI_MAX + PPI_MAX;
if (int_num >= offset) {
unsigned ix = int_num - offset; // index into cpuTarget array
if (data_sz == 1) {
cpuTarget[ix] = data & 0xff;
} else {
assert (data_sz == 4);
cpuTarget[ix] = bits(data, 7, 0);
cpuTarget[ix+1] = bits(data, 15, 8);
cpuTarget[ix+2] = bits(data, 23, 16);
cpuTarget[ix+3] = bits(data, 31, 24);
}
updateIntState(int_num >> 2);
}
return;
}
if (GICD_ICFGR.contains(daddr)) {
uint32_t ix = (daddr - GICD_ICFGR.start()) >> 2;
assert(ix < INT_BITS_MAX*2);
intConfig[ix] = data;
if (data & NN_CONFIG_MASK)
warn("GIC N:N mode selected and not supported at this time\n");
return;
}
switch(daddr) {
case GICD_CTLR:
enabled = data;
DPRINTF(Interrupt, "Distributor enable flag set to = %d\n", enabled);
break;
case GICD_TYPER:
/* 0x200 is a made-up flag to enable gem5 extension functionality.
* This reg is not normally written.
*/
gem5ExtensionsEnabled = (data & 0x200) && haveGem5Extensions;
DPRINTF(GIC, "gem5 extensions %s\n",
gem5ExtensionsEnabled ? "enabled" : "disabled");
break;
case GICD_SGIR:
softInt(ctx, data);
break;
default:
panic("Tried to write Gic distributor at offset %#x\n", daddr);
break;
}
}
Tick
Pl390::writeCpu(PacketPtr pkt)
{
const Addr daddr = pkt->getAddr() - cpuRange.start();
assert(pkt->req->hasContextId());
const ContextID ctx = pkt->req->contextId();
const uint32_t data = pkt->get<uint32_t>();
DPRINTF(GIC, "gic cpu write register cpu:%d %#x val: %#x\n",
ctx, daddr, data);
writeCpu(ctx, daddr, data);
pkt->makeAtomicResponse();
return cpuPioDelay;
}
void
Pl390::writeCpu(ContextID ctx, Addr daddr, uint32_t data)
{
switch(daddr) {
case GICC_CTLR:
cpuEnabled[ctx] = data;
break;
case GICC_PMR:
cpuPriority[ctx] = data;
break;
case GICC_BPR: {
auto bpr = data & 0x7;
if (bpr < GICC_BPR_MINIMUM)
bpr = GICC_BPR_MINIMUM;
cpuBpr[ctx] = bpr;
break;
}
case GICC_EOIR: {
const IAR iar = data;
if (iar.ack_id < SGI_MAX) {
// Clear out the bit that corresponds to the cleared int
uint64_t clr_int = ULL(1) << (ctx + 8 * iar.cpu_id);
if (!(cpuSgiActive[iar.ack_id] & clr_int) &&
!(cpuSgiActiveExt[ctx] & (1 << iar.ack_id)))
panic("Done handling a SGI that isn't active?\n");
if (gem5ExtensionsEnabled)
cpuSgiActiveExt[ctx] &= ~(1 << iar.ack_id);
else
cpuSgiActive[iar.ack_id] &= ~clr_int;
} else if (iar.ack_id < (SGI_MAX + PPI_MAX) ) {
uint32_t int_num = 1 << (iar.ack_id - SGI_MAX);
if (!(cpuPpiActive[ctx] & int_num))
panic("CPU %d Done handling a PPI interrupt "
"that isn't active?\n", ctx);
cpuPpiActive[ctx] &= ~int_num;
} else {
uint32_t int_num = 1 << intNumToBit(iar.ack_id);
if (!(getActiveInt(ctx, intNumToWord(iar.ack_id)) & int_num))
warn("Done handling interrupt that isn't active: %d\n",
intNumToBit(iar.ack_id));
getActiveInt(ctx, intNumToWord(iar.ack_id)) &= ~int_num;
}
updateRunPri();
DPRINTF(Interrupt, "CPU %d done handling intr IAR = %d from cpu %d\n",
ctx, iar.ack_id, iar.cpu_id);
break;
}
default:
panic("Tried to write Gic cpu at offset %#x\n", daddr);
break;
}
if (cpuEnabled[ctx]) updateIntState(-1);
}
Pl390::BankedRegs&
Pl390::getBankedRegs(ContextID ctx) {
if (bankedRegs.size() <= ctx)
bankedRegs.resize(ctx + 1);
if (!bankedRegs[ctx])
bankedRegs[ctx] = new BankedRegs;
return *bankedRegs[ctx];
}
void
Pl390::softInt(ContextID ctx, SWI swi)
{
if (gem5ExtensionsEnabled) {
switch (swi.list_type) {
case 0: {
// interrupt cpus specified
int dest = swi.cpu_list;
DPRINTF(IPI, "Generating softIRQ from CPU %d for CPU %d\n",
ctx, dest);
if (cpuEnabled[dest]) {
cpuSgiPendingExt[dest] |= (1 << swi.sgi_id);
DPRINTF(IPI, "SGI[%d]=%#x\n", dest,
cpuSgiPendingExt[dest]);
}
} break;
case 1: {
// interrupt all
for (int i = 0; i < sys->numContexts(); i++) {
DPRINTF(IPI, "Processing CPU %d\n", i);
if (!cpuEnabled[i])
continue;
cpuSgiPendingExt[i] |= 1 << swi.sgi_id;
DPRINTF(IPI, "SGI[%d]=%#x\n", swi.sgi_id,
cpuSgiPendingExt[i]);
}
} break;
case 2: {
// Interrupt requesting cpu only
DPRINTF(IPI, "Generating softIRQ from CPU %d for CPU %d\n",
ctx, ctx);
if (cpuEnabled[ctx]) {
cpuSgiPendingExt[ctx] |= (1 << swi.sgi_id);
DPRINTF(IPI, "SGI[%d]=%#x\n", ctx,
cpuSgiPendingExt[ctx]);
}
} break;
}
} else {
switch (swi.list_type) {
case 1:
// interrupt all
uint8_t cpu_list;
cpu_list = 0;
for (int x = 0; x < sys->numContexts(); x++)
cpu_list |= cpuEnabled[x] ? 1 << x : 0;
swi.cpu_list = cpu_list;
break;
case 2:
// interrupt requesting cpu only
swi.cpu_list = 1 << ctx;
break;
// else interrupt cpus specified
}
DPRINTF(IPI, "Generating softIRQ from CPU %d for %#x\n", ctx,
swi.cpu_list);
for (int i = 0; i < sys->numContexts(); i++) {
DPRINTF(IPI, "Processing CPU %d\n", i);
if (!cpuEnabled[i])
continue;
if (swi.cpu_list & (1 << i))
cpuSgiPending[swi.sgi_id] |= (1 << i) << (8 * ctx);
DPRINTF(IPI, "SGI[%d]=%#x\n", swi.sgi_id,
cpuSgiPending[swi.sgi_id]);
}
}
updateIntState(-1);
}
uint64_t
Pl390::genSwiMask(int cpu)
{
if (cpu > sys->numContexts())
panic("Invalid CPU ID\n");
return ULL(0x0101010101010101) << cpu;
}
uint8_t
Pl390::getCpuPriority(unsigned cpu)
{
// see Table 3-2 in IHI0048B.b (GICv2)
// mask some low-order priority bits per BPR value
// NB: the GIC prioritization scheme is upside down:
// lower values are higher priority; masking off bits
// actually creates a higher priority, not lower.
return cpuPriority[cpu] & (0xff00 >> (7 - cpuBpr[cpu]));
}
void
Pl390::updateIntState(int hint)
{
for (int cpu = 0; cpu < sys->numContexts(); cpu++) {
if (!cpuEnabled[cpu])
continue;
/*@todo use hint to do less work. */
int highest_int = SPURIOUS_INT;
// Priorities below that set in GICC_PMR can be ignored
uint8_t highest_pri = getCpuPriority(cpu);
// Check SGIs
for (int swi = 0; swi < SGI_MAX; swi++) {
if (!cpuSgiPending[swi] && !cpuSgiPendingExt[cpu])
continue;
if ((cpuSgiPending[swi] & genSwiMask(cpu)) ||
(cpuSgiPendingExt[cpu] & (1 << swi)))
if (highest_pri > getIntPriority(cpu, swi)) {
highest_pri = getIntPriority(cpu, swi);
highest_int = swi;
}
}
// Check PPIs
if (cpuPpiPending[cpu]) {
for (int ppi = 0; ppi < PPI_MAX; ppi++) {
if (cpuPpiPending[cpu] & (1 << ppi))
if (highest_pri > getIntPriority(cpu, SGI_MAX + ppi)) {
highest_pri = getIntPriority(cpu, SGI_MAX + ppi);
highest_int = SGI_MAX + ppi;
}
}
}
bool mp_sys = sys->numRunningContexts() > 1;
// Check other ints
for (int x = 0; x < (itLines/INT_BITS_MAX); x++) {
if (getIntEnabled(cpu, x) & getPendingInt(cpu, x)) {
for (int y = 0; y < INT_BITS_MAX; y++) {
uint32_t int_nm = x * INT_BITS_MAX + y;
DPRINTF(GIC, "Checking for interrupt# %d \n",int_nm);
/* Set current pending int as highest int for current cpu
if the interrupt's priority higher than current priority
and if current cpu is the target (for mp configs only)
*/
if ((bits(getIntEnabled(cpu, x), y)
&bits(getPendingInt(cpu, x), y)) &&
(getIntPriority(cpu, int_nm) < highest_pri))
if ((!mp_sys) ||
(gem5ExtensionsEnabled
? (getCpuTarget(cpu, int_nm) == cpu)
: (getCpuTarget(cpu, int_nm) & (1 << cpu)))) {
highest_pri = getIntPriority(cpu, int_nm);
highest_int = int_nm;
}
}
}
}
cpuHighestInt[cpu] = highest_int;
if (highest_int == SPURIOUS_INT)
continue;
/* @todo make this work for more than one cpu, need to handle 1:N, N:N
* models */
if (enabled && cpuEnabled[cpu] &&
(highest_pri < getCpuPriority(cpu)) &&
!(getActiveInt(cpu, intNumToWord(highest_int))
& (1 << intNumToBit(highest_int)))) {
DPRINTF(Interrupt, "Posting interrupt %d to cpu%d\n", highest_int,
cpu);
postInt(cpu, curTick() + intLatency);
}
}
}
void
Pl390::updateRunPri()
{
for (int cpu = 0; cpu < sys->numContexts(); cpu++) {
if (!cpuEnabled[cpu])
continue;
uint8_t maxPriority = 0xff;
for (int i = 0; i < itLines; i++) {
if (i < SGI_MAX) {
if (((cpuSgiActive[i] & genSwiMask(cpu)) ||
(cpuSgiActiveExt[cpu] & (1 << i))) &&
(getIntPriority(cpu, i) < maxPriority))
maxPriority = getIntPriority(cpu, i);
} else if (i < (SGI_MAX + PPI_MAX)) {
if ((cpuPpiActive[cpu] & ( 1 << (i - SGI_MAX))) &&
(getIntPriority(cpu, i) < maxPriority))
maxPriority = getIntPriority(cpu, i);
} else {
if (getActiveInt(cpu, intNumToWord(i))
& (1 << intNumToBit(i)))
if (getIntPriority(cpu, i) < maxPriority)
maxPriority = getIntPriority(cpu, i);
}
}
iccrpr[cpu] = maxPriority;
}
}
void
Pl390::sendInt(uint32_t num)
{
uint8_t target = getCpuTarget(0, num);
DPRINTF(Interrupt, "Received Interrupt number %d, cpuTarget %#x: \n",
num, target);
if ((target & (target - 1)) && !gem5ExtensionsEnabled)
panic("Multiple targets for peripheral interrupts is not supported\n");
panic_if(num < SGI_MAX + PPI_MAX,
"sentInt() must only be used for interrupts 32 and higher");
getPendingInt(target, intNumToWord(num)) |= 1 << intNumToBit(num);
updateIntState(intNumToWord(num));
}
void
Pl390::sendPPInt(uint32_t num, uint32_t cpu)
{
DPRINTF(Interrupt, "Received PPI %d, cpuTarget %#x: \n",
num, cpu);
cpuPpiPending[cpu] |= 1 << (num - SGI_MAX);
updateIntState(intNumToWord(num));
}
void
Pl390::clearInt(uint32_t number)
{
/* @todo assume edge triggered only at the moment. Nothing to do. */
}
void
Pl390::clearPPInt(uint32_t num, uint32_t cpu)
{
DPRINTF(Interrupt, "Clearing PPI %d, cpuTarget %#x: \n",
num, cpu);
cpuPpiPending[cpu] &= ~(1 << (num - SGI_MAX));
updateIntState(intNumToWord(num));
}
void
Pl390::postInt(uint32_t cpu, Tick when)
{
if (!(postIntEvent[cpu]->scheduled())) {
++pendingDelayedInterrupts;
eventq->schedule(postIntEvent[cpu], when);
}
}
void
Pl390::postDelayedInt(uint32_t cpu)
{
platform->intrctrl->post(cpu, ArmISA::INT_IRQ, 0);
--pendingDelayedInterrupts;
assert(pendingDelayedInterrupts >= 0);
if (pendingDelayedInterrupts == 0)
signalDrainDone();
}
DrainState
Pl390::drain()
{
if (pendingDelayedInterrupts == 0) {
return DrainState::Drained;
} else {
return DrainState::Draining;
}
}
void
Pl390::drainResume()
{
// There may be pending interrupts if checkpointed from Kvm; post them.
updateIntState(-1);
}
void
Pl390::serialize(CheckpointOut &cp) const
{
DPRINTF(Checkpoint, "Serializing Arm GIC\n");
SERIALIZE_SCALAR(enabled);
SERIALIZE_SCALAR(itLines);
SERIALIZE_ARRAY(intEnabled, INT_BITS_MAX-1);
SERIALIZE_ARRAY(pendingInt, INT_BITS_MAX-1);
SERIALIZE_ARRAY(activeInt, INT_BITS_MAX-1);
SERIALIZE_ARRAY(iccrpr, CPU_MAX);
SERIALIZE_ARRAY(intPriority, GLOBAL_INT_LINES);
SERIALIZE_ARRAY(cpuTarget, GLOBAL_INT_LINES);
SERIALIZE_ARRAY(intConfig, INT_BITS_MAX * 2);
SERIALIZE_ARRAY(cpuEnabled, CPU_MAX);
SERIALIZE_ARRAY(cpuPriority, CPU_MAX);
SERIALIZE_ARRAY(cpuBpr, CPU_MAX);
SERIALIZE_ARRAY(cpuHighestInt, CPU_MAX);
SERIALIZE_ARRAY(cpuSgiActive, SGI_MAX);
SERIALIZE_ARRAY(cpuSgiPending, SGI_MAX);
SERIALIZE_ARRAY(cpuSgiActiveExt, CPU_MAX);
SERIALIZE_ARRAY(cpuSgiPendingExt, CPU_MAX);
SERIALIZE_ARRAY(cpuPpiActive, CPU_MAX);
SERIALIZE_ARRAY(cpuPpiPending, CPU_MAX);
SERIALIZE_SCALAR(irqEnable);
SERIALIZE_SCALAR(gem5ExtensionsEnabled);
for (uint32_t i=0; i < bankedRegs.size(); ++i) {
if (!bankedRegs[i])
continue;
bankedRegs[i]->serializeSection(cp, csprintf("bankedRegs%i", i));
}
}
void
Pl390::BankedRegs::serialize(CheckpointOut &cp) const
{
SERIALIZE_SCALAR(intEnabled);
SERIALIZE_SCALAR(pendingInt);
SERIALIZE_SCALAR(activeInt);
SERIALIZE_ARRAY(intPriority, SGI_MAX + PPI_MAX);
}
void
Pl390::unserialize(CheckpointIn &cp)
{
DPRINTF(Checkpoint, "Unserializing Arm GIC\n");
UNSERIALIZE_SCALAR(enabled);
UNSERIALIZE_SCALAR(itLines);
UNSERIALIZE_ARRAY(intEnabled, INT_BITS_MAX-1);
UNSERIALIZE_ARRAY(pendingInt, INT_BITS_MAX-1);
UNSERIALIZE_ARRAY(activeInt, INT_BITS_MAX-1);
UNSERIALIZE_ARRAY(iccrpr, CPU_MAX);
UNSERIALIZE_ARRAY(intPriority, GLOBAL_INT_LINES);
UNSERIALIZE_ARRAY(cpuTarget, GLOBAL_INT_LINES);
UNSERIALIZE_ARRAY(intConfig, INT_BITS_MAX * 2);
UNSERIALIZE_ARRAY(cpuEnabled, CPU_MAX);
UNSERIALIZE_ARRAY(cpuPriority, CPU_MAX);
UNSERIALIZE_ARRAY(cpuBpr, CPU_MAX);
UNSERIALIZE_ARRAY(cpuHighestInt, CPU_MAX);
UNSERIALIZE_ARRAY(cpuSgiActive, SGI_MAX);
UNSERIALIZE_ARRAY(cpuSgiPending, SGI_MAX);
UNSERIALIZE_ARRAY(cpuSgiActiveExt, CPU_MAX);
UNSERIALIZE_ARRAY(cpuSgiPendingExt, CPU_MAX);
UNSERIALIZE_ARRAY(cpuPpiActive, CPU_MAX);
UNSERIALIZE_ARRAY(cpuPpiPending, CPU_MAX);
UNSERIALIZE_SCALAR(irqEnable);
// Handle checkpoints from before we drained the GIC to prevent
// in-flight interrupts.
if (cp.entryExists(Serializable::currentSection(), "interrupt_time")) {
Tick interrupt_time[CPU_MAX];
UNSERIALIZE_ARRAY(interrupt_time, CPU_MAX);
for (uint32_t cpu = 0; cpu < CPU_MAX; cpu++) {
if (interrupt_time[cpu])
schedule(postIntEvent[cpu], interrupt_time[cpu]);
}
}
if (!UNSERIALIZE_OPT_SCALAR(gem5ExtensionsEnabled))
gem5ExtensionsEnabled = false;
for (uint32_t i=0; i < CPU_MAX; ++i) {
ScopedCheckpointSection sec(cp, csprintf("bankedRegs%i", i));
if (cp.sectionExists(Serializable::currentSection())) {
getBankedRegs(i).unserialize(cp);
}
}
}
void
Pl390::BankedRegs::unserialize(CheckpointIn &cp)
{
UNSERIALIZE_SCALAR(intEnabled);
UNSERIALIZE_SCALAR(pendingInt);
UNSERIALIZE_SCALAR(activeInt);
UNSERIALIZE_ARRAY(intPriority, SGI_MAX + PPI_MAX);
}
Pl390 *
Pl390Params::create()
{
return new Pl390(this);
}
/* Functions for debugging and testing */
void
Pl390::driveSPI(uint32_t spiVect)
{
DPRINTF(GIC, "Received SPI Vector:%x Enable: %d\n", spiVect, irqEnable);
getPendingInt(0, 1) |= spiVect;
if (irqEnable && enabled) {
updateIntState(-1);
}
}
void
Pl390::driveIrqEn( bool state)
{
irqEnable = state;
DPRINTF(GIC, " Enabling Irq\n");
updateIntState(-1);
}
void
Pl390::driveLegIRQ(bool state)
{
if (irqEnable && !(!enabled && cpuEnabled[0])) {
if (state) {
DPRINTF(GIC, "Driving Legacy Irq\n");
platform->intrctrl->post(0, ArmISA::INT_IRQ, 0);
}
else platform->intrctrl->clear(0, ArmISA::INT_IRQ, 0);
}
}
void
Pl390::driveLegFIQ(bool state)
{
if (state)
platform->intrctrl->post(0, ArmISA::INT_FIQ, 0);
else platform->intrctrl->clear(0, ArmISA::INT_FIQ, 0);
}
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