/* * Copyright (c) 2018 Metempsy Technology Consulting * 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: Jairo Balart */ #include "dev/arm/gic_v3.hh" #include "cpu/intr_control.hh" #include "debug/GIC.hh" #include "debug/Interrupt.hh" #include "dev/arm/gic_v3_cpu_interface.hh" #include "dev/arm/gic_v3_distributor.hh" #include "dev/arm/gic_v3_redistributor.hh" #include "dev/platform.hh" #include "mem/packet.hh" #include "mem/packet_access.hh" Gicv3::Gicv3(const Params * p) : BaseGic(p) { } Gicv3::~Gicv3() { } void Gicv3::init() { distRange = RangeSize(params()->dist_addr, Gicv3Distributor::ADDR_RANGE_SIZE - 1); redistRange = RangeSize(params()->redist_addr, Gicv3Redistributor::ADDR_RANGE_SIZE * sys->numContexts() - 1); addrRanges = {distRange, redistRange}; BaseGic::init(); distributor = new Gicv3Distributor(this, params()->it_lines); redistributors.resize(sys->numContexts(), nullptr); cpuInterfaces.resize(sys->numContexts(), nullptr); for (int i = 0; i < sys->numContexts(); i++) { redistributors[i] = new Gicv3Redistributor(this, i); cpuInterfaces[i] = new Gicv3CPUInterface(this, i); } distributor->init(); for (int i = 0; i < sys->numContexts(); i++) { redistributors[i]->init(); cpuInterfaces[i]->init(); } } void Gicv3::initState() { distributor->initState(); for (int i = 0; i < sys->numContexts(); i++) { redistributors[i]->initState(); cpuInterfaces[i]->initState(); } } Tick Gicv3::read(PacketPtr pkt) { const Addr addr = pkt->getAddr(); const size_t size = pkt->getSize(); const ContextID context_id = pkt->req->contextId(); bool is_secure_access = pkt->isSecure(); uint64_t resp = 0; Tick delay = 0; if (distRange.contains(addr)) { const Addr daddr = addr - distRange.start(); panic_if(!distributor, "Distributor is null!"); resp = distributor->read(daddr, size, is_secure_access); delay = params()->dist_pio_delay; DPRINTF(GIC, "Gicv3::read(): (distributor) context_id %d register %#x " "size %d is_secure_access %d (value %#x)\n", context_id, daddr, size, is_secure_access, resp); } else if (redistRange.contains(addr)) { Addr daddr = addr - redistRange.start(); uint32_t redistributor_id = daddr / Gicv3Redistributor::ADDR_RANGE_SIZE; daddr = daddr % Gicv3Redistributor::ADDR_RANGE_SIZE; panic_if(redistributor_id >= redistributors.size(), "Invalid redistributor_id!"); panic_if(!redistributors[redistributor_id], "Redistributor is null!"); resp = redistributors[redistributor_id]->read(daddr, size, is_secure_access); delay = params()->redist_pio_delay; DPRINTF(GIC, "Gicv3::read(): (redistributor %d) context_id %d " "register %#x size %d is_secure_access %d (value %#x)\n", redistributor_id, context_id, daddr, size, is_secure_access, resp); } else { panic("Gicv3::read(): unknown address %#x\n", addr); } pkt->setUintX(resp, LittleEndianByteOrder); pkt->makeAtomicResponse(); return delay; } Tick Gicv3::write(PacketPtr pkt) { const size_t size = pkt->getSize(); uint64_t data = pkt->getUintX(LittleEndianByteOrder); const Addr addr = pkt->getAddr(); const ContextID context_id = pkt->req->contextId(); bool is_secure_access = pkt->isSecure(); Tick delay = 0; if (distRange.contains(addr)) { const Addr daddr = addr - distRange.start(); panic_if(!distributor, "Distributor is null!"); DPRINTF(GIC, "Gicv3::write(): (distributor) context_id %d " "register %#x size %d is_secure_access %d value %#x\n", context_id, daddr, size, is_secure_access, data); distributor->write(daddr, data, size, is_secure_access); delay = params()->dist_pio_delay; } else if (redistRange.contains(addr)) { Addr daddr = addr - redistRange.start(); uint32_t redistributor_id = daddr / Gicv3Redistributor::ADDR_RANGE_SIZE; daddr = daddr % Gicv3Redistributor::ADDR_RANGE_SIZE; panic_if(redistributor_id >= redistributors.size(), "Invalid redistributor_id!"); panic_if(!redistributors[redistributor_id], "Redistributor is null!"); DPRINTF(GIC, "Gicv3::write(): (redistributor %d) context_id %d " "register %#x size %d is_secure_access %d value %#x\n", redistributor_id, context_id, daddr, size, is_secure_access, data); redistributors[redistributor_id]->write(daddr, data, size, is_secure_access); delay = params()->redist_pio_delay; } else { panic("Gicv3::write(): unknown address %#x\n", addr); } pkt->makeAtomicResponse(); return delay; } void Gicv3::sendInt(uint32_t int_id) { panic_if(int_id < Gicv3::SGI_MAX + Gicv3::PPI_MAX, "Invalid SPI!"); panic_if(int_id >= Gicv3::INTID_SECURE, "Invalid SPI!"); DPRINTF(Interrupt, "Gicv3::sendInt(): received SPI %d\n", int_id); distributor->sendInt(int_id); } void Gicv3::clearInt(uint32_t number) { distributor->intDeasserted(number); } void Gicv3::sendPPInt(uint32_t int_id, uint32_t cpu) { panic_if(cpu >= redistributors.size(), "Invalid cpuID sending PPI!"); panic_if(int_id < Gicv3::SGI_MAX, "Invalid PPI!"); panic_if(int_id >= Gicv3::SGI_MAX + Gicv3::PPI_MAX, "Invalid PPI!"); DPRINTF(Interrupt, "Gicv3::sendPPInt(): received PPI %d cpuTarget %#x\n", int_id, cpu); redistributors[cpu]->sendPPInt(int_id); } void Gicv3::clearPPInt(uint32_t num, uint32_t cpu) { } void Gicv3::postInt(uint32_t cpu, ArmISA::InterruptTypes int_type) { postDelayedInt(cpu, int_type); } void Gicv3::deassertInt(uint32_t cpu, ArmISA::InterruptTypes int_type) { platform->intrctrl->clear(cpu, int_type, 0); } void Gicv3::postDelayedInt(uint32_t cpu, ArmISA::InterruptTypes int_type) { platform->intrctrl->post(cpu, int_type, 0); } Gicv3Redistributor * Gicv3::getRedistributorByAffinity(uint32_t affinity) { for (auto & redistributor : redistributors) { if (redistributor->getAffinity() == affinity) { return redistributor; } } return nullptr; } void Gicv3::serialize(CheckpointOut & cp) const { distributor->serializeSection(cp, "distributor"); for (uint32_t redistributor_id = 0; redistributor_id < redistributors.size(); redistributor_id++) redistributors[redistributor_id]->serializeSection(cp, csprintf("redistributors.%i", redistributor_id)); for (uint32_t cpu_interface_id = 0; cpu_interface_id < cpuInterfaces.size(); cpu_interface_id++) cpuInterfaces[cpu_interface_id]->serializeSection(cp, csprintf("cpuInterface.%i", cpu_interface_id)); } void Gicv3::unserialize(CheckpointIn & cp) { getSystem()->setGIC(this); distributor->unserializeSection(cp, "distributor"); for (uint32_t redistributor_id = 0; redistributor_id < redistributors.size(); redistributor_id++) redistributors[redistributor_id]->unserializeSection(cp, csprintf("redistributors.%i", redistributor_id)); for (uint32_t cpu_interface_id = 0; cpu_interface_id < cpuInterfaces.size(); cpu_interface_id++) cpuInterfaces[cpu_interface_id]->unserializeSection(cp, csprintf("cpuInterface.%i", cpu_interface_id)); } Gicv3 * Gicv3Params::create() { return new Gicv3(this); }