ruby/system/RubyPort.cc

6876Ssteve.reinhardt@amd.com/*
6876Ssteve.reinhardt@amd.com * Copyright (c) 2009 Advanced Micro Devices, Inc.
8717Snilay@cs.wisc.edu * Copyright (c) 2011 Mark D. Hill and David A. Wood
6876Ssteve.reinhardt@amd.com * All rights reserved.
6876Ssteve.reinhardt@amd.com *
6876Ssteve.reinhardt@amd.com * Redistribution and use in source and binary forms, with or without
6876Ssteve.reinhardt@amd.com * modification, are permitted provided that the following conditions are
6876Ssteve.reinhardt@amd.com * met: redistributions of source code must retain the above copyright
6876Ssteve.reinhardt@amd.com * notice, this list of conditions and the following disclaimer;
6876Ssteve.reinhardt@amd.com * redistributions in binary form must reproduce the above copyright
6876Ssteve.reinhardt@amd.com * notice, this list of conditions and the following disclaimer in the
6876Ssteve.reinhardt@amd.com * documentation and/or other materials provided with the distribution;
6876Ssteve.reinhardt@amd.com * neither the name of the copyright holders nor the names of its
6876Ssteve.reinhardt@amd.com * contributors may be used to endorse or promote products derived from
6876Ssteve.reinhardt@amd.com * this software without specific prior written permission.
6876Ssteve.reinhardt@amd.com *
6876Ssteve.reinhardt@amd.com * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
6876Ssteve.reinhardt@amd.com * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
6876Ssteve.reinhardt@amd.com * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
6876Ssteve.reinhardt@amd.com * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
6876Ssteve.reinhardt@amd.com * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
6876Ssteve.reinhardt@amd.com * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
6876Ssteve.reinhardt@amd.com * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
6876Ssteve.reinhardt@amd.com * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
6876Ssteve.reinhardt@amd.com * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
6876Ssteve.reinhardt@amd.com * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
6876Ssteve.reinhardt@amd.com * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
6876Ssteve.reinhardt@amd.com */
6876Ssteve.reinhardt@amd.com
7632SBrad.Beckmann@amd.com#include "cpu/testers/rubytest/RubyTester.hh"
8688Snilay@cs.wisc.edu#include "debug/Config.hh"
8232Snate@binkert.org#include "debug/Ruby.hh"
8436SBrad.Beckmann@amd.com#include "mem/protocol/AccessPermission.hh"
7039Snate@binkert.org#include "mem/ruby/slicc_interface/AbstractController.hh"
6285Snate@binkert.org#include "mem/ruby/system/RubyPort.hh"
6285Snate@binkert.org
6876Ssteve.reinhardt@amd.comRubyPort::RubyPort(const Params *p)
8851Sandreas.hansson@arm.com    : MemObject(p), pio_port(csprintf("%s-pio-port", name()), this),
8851Sandreas.hansson@arm.com      physMemPort(csprintf("%s-physMemPort", name()), this)
6876Ssteve.reinhardt@amd.com{
6876Ssteve.reinhardt@amd.com    m_version = p->version;
6876Ssteve.reinhardt@amd.com    assert(m_version != -1);
6876Ssteve.reinhardt@amd.com
6893SBrad.Beckmann@amd.com    physmem = p->physmem;
7039Snate@binkert.org
6882SBrad.Beckmann@amd.com    m_controller = NULL;
6882SBrad.Beckmann@amd.com    m_mandatory_q_ptr = NULL;
6876Ssteve.reinhardt@amd.com
6876Ssteve.reinhardt@amd.com    m_request_cnt = 0;
7910SBrad.Beckmann@amd.com
7910SBrad.Beckmann@amd.com    m_usingRubyTester = p->using_ruby_tester;
7915SBrad.Beckmann@amd.com    access_phys_mem = p->access_phys_mem;
8436SBrad.Beckmann@amd.com
8688Snilay@cs.wisc.edu    drainEvent = NULL;
8688Snilay@cs.wisc.edu
8436SBrad.Beckmann@amd.com    ruby_system = p->ruby_system;
8505Snilay@cs.wisc.edu    waitingOnSequencer = false;
6876Ssteve.reinhardt@amd.com}
6876Ssteve.reinhardt@amd.com
7039Snate@binkert.orgvoid
7039Snate@binkert.orgRubyPort::init()
6882SBrad.Beckmann@amd.com{
6882SBrad.Beckmann@amd.com    assert(m_controller != NULL);
6882SBrad.Beckmann@amd.com    m_mandatory_q_ptr = m_controller->getMandatoryQueue();
6882SBrad.Beckmann@amd.com}
6882SBrad.Beckmann@amd.com
6876Ssteve.reinhardt@amd.comPort *
6876Ssteve.reinhardt@amd.comRubyPort::getPort(const std::string &if_name, int idx)
6876Ssteve.reinhardt@amd.com{
8839Sandreas.hansson@arm.com    // used by the CPUs to connect the caches to the interconnect, and
8839Sandreas.hansson@arm.com    // for the x86 case also the interrupt master
8839Sandreas.hansson@arm.com    if (if_name == "slave") {
8839Sandreas.hansson@arm.com        M5Port* cpuPort = new M5Port(csprintf("%s-slave%d", name(), idx),
8686Snilay@cs.wisc.edu                                     this, ruby_system, access_phys_mem);
8686Snilay@cs.wisc.edu        cpu_ports.push_back(cpuPort);
8686Snilay@cs.wisc.edu        return cpuPort;
7039Snate@binkert.org    }
7039Snate@binkert.org
8839Sandreas.hansson@arm.com    // used by the x86 CPUs to connect the interrupt PIO and interrupt slave
8839Sandreas.hansson@arm.com    // port
8839Sandreas.hansson@arm.com    if (if_name == "master") {
8839Sandreas.hansson@arm.com        PioPort* masterPort = new PioPort(csprintf("%s-master%d", name(), idx),
8839Sandreas.hansson@arm.com                                          this);
8839Sandreas.hansson@arm.com
8839Sandreas.hansson@arm.com        return masterPort;
8839Sandreas.hansson@arm.com    }
8839Sandreas.hansson@arm.com
7039Snate@binkert.org    if (if_name == "pio_port") {
8851Sandreas.hansson@arm.com        return &pio_port;
7039Snate@binkert.org    }
7039Snate@binkert.org
7039Snate@binkert.org    if (if_name == "physMemPort") {
8851Sandreas.hansson@arm.com        return &physMemPort;
7039Snate@binkert.org    }
7039Snate@binkert.org
6876Ssteve.reinhardt@amd.com    return NULL;
6876Ssteve.reinhardt@amd.com}
6882SBrad.Beckmann@amd.com
7039Snate@binkert.orgRubyPort::PioPort::PioPort(const std::string &_name,
6882SBrad.Beckmann@amd.com                           RubyPort *_port)
8914Sandreas.hansson@arm.com    : QueuedPort(_name, _port, queue), queue(*_port, *this), ruby_port(_port)
6882SBrad.Beckmann@amd.com{
8161SBrad.Beckmann@amd.com    DPRINTF(RubyPort, "creating port to ruby sequencer to cpu %s\n", _name);
6882SBrad.Beckmann@amd.com}
6882SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.comRubyPort::M5Port::M5Port(const std::string &_name, RubyPort *_port,
8436SBrad.Beckmann@amd.com                         RubySystem *_system, bool _access_phys_mem)
8914Sandreas.hansson@arm.com    : QueuedPort(_name, _port, queue), queue(*_port, *this),
8914Sandreas.hansson@arm.com      ruby_port(_port), ruby_system(_system),
8914Sandreas.hansson@arm.com      _onRetryList(false), access_phys_mem(_access_phys_mem)
6882SBrad.Beckmann@amd.com{
8161SBrad.Beckmann@amd.com    DPRINTF(RubyPort, "creating port from ruby sequcner to cpu %s\n", _name);
6882SBrad.Beckmann@amd.com}
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.comTick
6882SBrad.Beckmann@amd.comRubyPort::PioPort::recvAtomic(PacketPtr pkt)
6882SBrad.Beckmann@amd.com{
6882SBrad.Beckmann@amd.com    panic("RubyPort::PioPort::recvAtomic() not implemented!\n");
6882SBrad.Beckmann@amd.com    return 0;
6882SBrad.Beckmann@amd.com}
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.comTick
6882SBrad.Beckmann@amd.comRubyPort::M5Port::recvAtomic(PacketPtr pkt)
6882SBrad.Beckmann@amd.com{
6882SBrad.Beckmann@amd.com    panic("RubyPort::M5Port::recvAtomic() not implemented!\n");
6882SBrad.Beckmann@amd.com    return 0;
6882SBrad.Beckmann@amd.com}
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.combool
6882SBrad.Beckmann@amd.comRubyPort::PioPort::recvTiming(PacketPtr pkt)
6882SBrad.Beckmann@amd.com{
7039Snate@binkert.org    // In FS mode, ruby memory will receive pio responses from devices
7039Snate@binkert.org    // and it must forward these responses back to the particular CPU.
8161SBrad.Beckmann@amd.com    DPRINTF(RubyPort,  "Pio response for address %#x\n", pkt->getAddr());
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.com    assert(pkt->isResponse());
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.com    // First we must retrieve the request port from the sender State
7039Snate@binkert.org    RubyPort::SenderState *senderState =
6882SBrad.Beckmann@amd.com      safe_cast<RubyPort::SenderState *>(pkt->senderState);
6882SBrad.Beckmann@amd.com    M5Port *port = senderState->port;
6882SBrad.Beckmann@amd.com    assert(port != NULL);
7039Snate@binkert.org
6882SBrad.Beckmann@amd.com    // pop the sender state from the packet
6882SBrad.Beckmann@amd.com    pkt->senderState = senderState->saved;
6882SBrad.Beckmann@amd.com    delete senderState;
7039Snate@binkert.org
6882SBrad.Beckmann@amd.com    port->sendTiming(pkt);
7039Snate@binkert.org
6882SBrad.Beckmann@amd.com    return true;
6882SBrad.Beckmann@amd.com}
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.combool
6882SBrad.Beckmann@amd.comRubyPort::M5Port::recvTiming(PacketPtr pkt)
6882SBrad.Beckmann@amd.com{
8161SBrad.Beckmann@amd.com    DPRINTF(RubyPort,
7039Snate@binkert.org            "Timing access caught for address %#x\n", pkt->getAddr());
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.com    //dsm: based on SimpleTimingPort::recvTiming(pkt);
6882SBrad.Beckmann@amd.com
7039Snate@binkert.org    // The received packets should only be M5 requests, which should never
7039Snate@binkert.org    // get nacked.  There used to be code to hanldle nacks here, but
7039Snate@binkert.org    // I'm pretty sure it didn't work correctly with the drain code,
6882SBrad.Beckmann@amd.com    // so that would need to be fixed if we ever added it back.
6882SBrad.Beckmann@amd.com    assert(pkt->isRequest());
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.com    if (pkt->memInhibitAsserted()) {
6882SBrad.Beckmann@amd.com        warn("memInhibitAsserted???");
6882SBrad.Beckmann@amd.com        // snooper will supply based on copy of packet
6882SBrad.Beckmann@amd.com        // still target's responsibility to delete packet
6882SBrad.Beckmann@amd.com        delete pkt;
6882SBrad.Beckmann@amd.com        return true;
6882SBrad.Beckmann@amd.com    }
6882SBrad.Beckmann@amd.com
6922SBrad.Beckmann@amd.com    // Save the port in the sender state object to be used later to
6922SBrad.Beckmann@amd.com    // route the response
6922SBrad.Beckmann@amd.com    pkt->senderState = new SenderState(this, pkt->senderState);
6922SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.com    // Check for pio requests and directly send them to the dedicated
6882SBrad.Beckmann@amd.com    // pio port.
6882SBrad.Beckmann@amd.com    if (!isPhysMemAddress(pkt->getAddr())) {
8851Sandreas.hansson@arm.com        assert(ruby_port->pio_port.isConnected());
8161SBrad.Beckmann@amd.com        DPRINTF(RubyPort,
6922SBrad.Beckmann@amd.com                "Request for address 0x%#x is assumed to be a pio request\n",
6922SBrad.Beckmann@amd.com                pkt->getAddr());
6882SBrad.Beckmann@amd.com
8874Sandreas.hansson@arm.com        return ruby_port->pio_port.sendNextCycle(pkt);
6882SBrad.Beckmann@amd.com    }
6882SBrad.Beckmann@amd.com
8615Snilay@cs.wisc.edu    assert(Address(pkt->getAddr()).getOffset() + pkt->getSize() <=
8615Snilay@cs.wisc.edu           RubySystem::getBlockSizeBytes());
7906SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.com    // Submit the ruby request
8615Snilay@cs.wisc.edu    RequestStatus requestStatus = ruby_port->makeRequest(pkt);
7023SBrad.Beckmann@amd.com
7550SBrad.Beckmann@amd.com    // If the request successfully issued then we should return true.
7023SBrad.Beckmann@amd.com    // Otherwise, we need to delete the senderStatus we just created and return
7023SBrad.Beckmann@amd.com    // false.
7550SBrad.Beckmann@amd.com    if (requestStatus == RequestStatus_Issued) {
8161SBrad.Beckmann@amd.com        DPRINTF(RubyPort, "Request %#x issued\n", pkt->getAddr());
6922SBrad.Beckmann@amd.com        return true;
6882SBrad.Beckmann@amd.com    }
7023SBrad.Beckmann@amd.com
7910SBrad.Beckmann@amd.com    //
7910SBrad.Beckmann@amd.com    // Unless one is using the ruby tester, record the stalled M5 port for
7910SBrad.Beckmann@amd.com    // later retry when the sequencer becomes free.
7910SBrad.Beckmann@amd.com    //
7910SBrad.Beckmann@amd.com    if (!ruby_port->m_usingRubyTester) {
7910SBrad.Beckmann@amd.com        ruby_port->addToRetryList(this);
7910SBrad.Beckmann@amd.com    }
7910SBrad.Beckmann@amd.com
8161SBrad.Beckmann@amd.com    DPRINTF(RubyPort,
7906SBrad.Beckmann@amd.com            "Request for address %#x did not issue because %s\n",
7039Snate@binkert.org            pkt->getAddr(), RequestStatus_to_string(requestStatus));
7039Snate@binkert.org
6922SBrad.Beckmann@amd.com    SenderState* senderState = safe_cast<SenderState*>(pkt->senderState);
6922SBrad.Beckmann@amd.com    pkt->senderState = senderState->saved;
6922SBrad.Beckmann@amd.com    delete senderState;
6922SBrad.Beckmann@amd.com    return false;
6882SBrad.Beckmann@amd.com}
6882SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.combool
8436SBrad.Beckmann@amd.comRubyPort::M5Port::doFunctionalRead(PacketPtr pkt)
8436SBrad.Beckmann@amd.com{
8436SBrad.Beckmann@amd.com    Address address(pkt->getAddr());
8436SBrad.Beckmann@amd.com    Address line_address(address);
8436SBrad.Beckmann@amd.com    line_address.makeLineAddress();
8436SBrad.Beckmann@amd.com
8532SLisa.Hsu@amd.com    AccessPermission access_perm = AccessPermission_NotPresent;
8436SBrad.Beckmann@amd.com    int num_controllers = ruby_system->m_abs_cntrl_vec.size();
8436SBrad.Beckmann@amd.com
8532SLisa.Hsu@amd.com    DPRINTF(RubyPort, "Functional Read request for %s\n",address);
8436SBrad.Beckmann@amd.com
8532SLisa.Hsu@amd.com    unsigned int num_ro = 0;
8532SLisa.Hsu@amd.com    unsigned int num_rw = 0;
8532SLisa.Hsu@amd.com    unsigned int num_busy = 0;
8532SLisa.Hsu@amd.com    unsigned int num_backing_store = 0;
8532SLisa.Hsu@amd.com    unsigned int num_invalid = 0;
8532SLisa.Hsu@amd.com
8532SLisa.Hsu@amd.com    // In this loop we count the number of controllers that have the given
8532SLisa.Hsu@amd.com    // address in read only, read write and busy states.
8532SLisa.Hsu@amd.com    for (int i = 0; i < num_controllers; ++i) {
8532SLisa.Hsu@amd.com        access_perm = ruby_system->m_abs_cntrl_vec[i]->
8532SLisa.Hsu@amd.com                                            getAccessPermission(line_address);
8532SLisa.Hsu@amd.com        if (access_perm == AccessPermission_Read_Only)
8532SLisa.Hsu@amd.com            num_ro++;
8532SLisa.Hsu@amd.com        else if (access_perm == AccessPermission_Read_Write)
8532SLisa.Hsu@amd.com            num_rw++;
8532SLisa.Hsu@amd.com        else if (access_perm == AccessPermission_Busy)
8532SLisa.Hsu@amd.com            num_busy++;
8532SLisa.Hsu@amd.com        else if (access_perm == AccessPermission_Backing_Store)
8532SLisa.Hsu@amd.com            // See RubySlicc_Exports.sm for details, but Backing_Store is meant
8532SLisa.Hsu@amd.com            // to represent blocks in memory *for Broadcast/Snooping protocols*,
8532SLisa.Hsu@amd.com            // where memory has no idea whether it has an exclusive copy of data
8532SLisa.Hsu@amd.com            // or not.
8532SLisa.Hsu@amd.com            num_backing_store++;
8532SLisa.Hsu@amd.com        else if (access_perm == AccessPermission_Invalid ||
8532SLisa.Hsu@amd.com                 access_perm == AccessPermission_NotPresent)
8532SLisa.Hsu@amd.com            num_invalid++;
8532SLisa.Hsu@amd.com    }
8532SLisa.Hsu@amd.com    assert(num_rw <= 1);
8532SLisa.Hsu@amd.com
8532SLisa.Hsu@amd.com    uint8* data = pkt->getPtr<uint8_t>(true);
8532SLisa.Hsu@amd.com    unsigned int size_in_bytes = pkt->getSize();
8532SLisa.Hsu@amd.com    unsigned startByte = address.getAddress() - line_address.getAddress();
8532SLisa.Hsu@amd.com
8532SLisa.Hsu@amd.com    // This if case is meant to capture what happens in a Broadcast/Snoop
8532SLisa.Hsu@amd.com    // protocol where the block does not exist in the cache hierarchy. You
8532SLisa.Hsu@amd.com    // only want to read from the Backing_Store memory if there is no copy in
8532SLisa.Hsu@amd.com    // the cache hierarchy, otherwise you want to try to read the RO or RW
8532SLisa.Hsu@amd.com    // copies existing in the cache hierarchy (covered by the else statement).
8532SLisa.Hsu@amd.com    // The reason is because the Backing_Store memory could easily be stale, if
8532SLisa.Hsu@amd.com    // there are copies floating around the cache hierarchy, so you want to read
8532SLisa.Hsu@amd.com    // it only if it's not in the cache hierarchy at all.
8532SLisa.Hsu@amd.com    if (num_invalid == (num_controllers - 1) &&
8532SLisa.Hsu@amd.com            num_backing_store == 1)
8436SBrad.Beckmann@amd.com    {
8532SLisa.Hsu@amd.com        DPRINTF(RubyPort, "only copy in Backing_Store memory, read from it\n");
8532SLisa.Hsu@amd.com        for (int i = 0; i < num_controllers; ++i) {
8532SLisa.Hsu@amd.com            access_perm = ruby_system->m_abs_cntrl_vec[i]
8532SLisa.Hsu@amd.com                                              ->getAccessPermission(line_address);
8532SLisa.Hsu@amd.com            if (access_perm == AccessPermission_Backing_Store) {
8532SLisa.Hsu@amd.com                DataBlock& block = ruby_system->m_abs_cntrl_vec[i]
8436SBrad.Beckmann@amd.com                                                 ->getDataBlock(line_address);
8436SBrad.Beckmann@amd.com
8532SLisa.Hsu@amd.com                DPRINTF(RubyPort, "reading from %s block %s\n",
8532SLisa.Hsu@amd.com                        ruby_system->m_abs_cntrl_vec[i]->name(), block);
8532SLisa.Hsu@amd.com                for (unsigned i = 0; i < size_in_bytes; ++i) {
8532SLisa.Hsu@amd.com                    data[i] = block.getByte(i + startByte);
8532SLisa.Hsu@amd.com                }
8532SLisa.Hsu@amd.com                return true;
8532SLisa.Hsu@amd.com            }
8532SLisa.Hsu@amd.com        }
8532SLisa.Hsu@amd.com    } else {
8532SLisa.Hsu@amd.com        // In Broadcast/Snoop protocols, this covers if you know the block
8532SLisa.Hsu@amd.com        // exists somewhere in the caching hierarchy, then you want to read any
8532SLisa.Hsu@amd.com        // valid RO or RW block.  In directory protocols, same thing, you want
8532SLisa.Hsu@amd.com        // to read any valid readable copy of the block.
8532SLisa.Hsu@amd.com        DPRINTF(RubyPort, "num_busy = %d, num_ro = %d, num_rw = %d\n",
8532SLisa.Hsu@amd.com                num_busy, num_ro, num_rw);
8532SLisa.Hsu@amd.com        // In this loop, we try to figure which controller has a read only or
8532SLisa.Hsu@amd.com        // a read write copy of the given address. Any valid copy would suffice
8532SLisa.Hsu@amd.com        // for a functional read.
8532SLisa.Hsu@amd.com        for(int i = 0;i < num_controllers;++i) {
8532SLisa.Hsu@amd.com            access_perm = ruby_system->m_abs_cntrl_vec[i]
8532SLisa.Hsu@amd.com                                              ->getAccessPermission(line_address);
8532SLisa.Hsu@amd.com            if(access_perm == AccessPermission_Read_Only ||
8532SLisa.Hsu@amd.com               access_perm == AccessPermission_Read_Write)
8436SBrad.Beckmann@amd.com            {
8532SLisa.Hsu@amd.com                DataBlock& block = ruby_system->m_abs_cntrl_vec[i]
8532SLisa.Hsu@amd.com                                                     ->getDataBlock(line_address);
8532SLisa.Hsu@amd.com
8532SLisa.Hsu@amd.com                DPRINTF(RubyPort, "reading from %s block %s\n",
8532SLisa.Hsu@amd.com                        ruby_system->m_abs_cntrl_vec[i]->name(), block);
8532SLisa.Hsu@amd.com                for (unsigned i = 0; i < size_in_bytes; ++i) {
8532SLisa.Hsu@amd.com                    data[i] = block.getByte(i + startByte);
8532SLisa.Hsu@amd.com                }
8532SLisa.Hsu@amd.com                return true;
8436SBrad.Beckmann@amd.com            }
8436SBrad.Beckmann@amd.com        }
8436SBrad.Beckmann@amd.com    }
8436SBrad.Beckmann@amd.com    return false;
8436SBrad.Beckmann@amd.com}
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.combool
8436SBrad.Beckmann@amd.comRubyPort::M5Port::doFunctionalWrite(PacketPtr pkt)
8436SBrad.Beckmann@amd.com{
8436SBrad.Beckmann@amd.com    Address addr(pkt->getAddr());
8436SBrad.Beckmann@amd.com    Address line_addr = line_address(addr);
8532SLisa.Hsu@amd.com    AccessPermission access_perm = AccessPermission_NotPresent;
8436SBrad.Beckmann@amd.com    int num_controllers = ruby_system->m_abs_cntrl_vec.size();
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    DPRINTF(RubyPort, "Functional Write request for %s\n",addr);
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    unsigned int num_ro = 0;
8436SBrad.Beckmann@amd.com    unsigned int num_rw = 0;
8436SBrad.Beckmann@amd.com    unsigned int num_busy = 0;
8532SLisa.Hsu@amd.com    unsigned int num_backing_store = 0;
8532SLisa.Hsu@amd.com    unsigned int num_invalid = 0;
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    // In this loop we count the number of controllers that have the given
8436SBrad.Beckmann@amd.com    // address in read only, read write and busy states.
8532SLisa.Hsu@amd.com    for(int i = 0;i < num_controllers;++i) {
8532SLisa.Hsu@amd.com        access_perm = ruby_system->m_abs_cntrl_vec[i]->
8436SBrad.Beckmann@amd.com                                            getAccessPermission(line_addr);
8532SLisa.Hsu@amd.com        if (access_perm == AccessPermission_Read_Only)
8532SLisa.Hsu@amd.com            num_ro++;
8532SLisa.Hsu@amd.com        else if (access_perm == AccessPermission_Read_Write)
8532SLisa.Hsu@amd.com            num_rw++;
8532SLisa.Hsu@amd.com        else if (access_perm == AccessPermission_Busy)
8532SLisa.Hsu@amd.com            num_busy++;
8532SLisa.Hsu@amd.com        else if (access_perm == AccessPermission_Backing_Store)
8532SLisa.Hsu@amd.com            // See RubySlicc_Exports.sm for details, but Backing_Store is meant
8532SLisa.Hsu@amd.com            // to represent blocks in memory *for Broadcast/Snooping protocols*,
8532SLisa.Hsu@amd.com            // where memory has no idea whether it has an exclusive copy of data
8532SLisa.Hsu@amd.com            // or not.
8532SLisa.Hsu@amd.com            num_backing_store++;
8532SLisa.Hsu@amd.com        else if (access_perm == AccessPermission_Invalid ||
8532SLisa.Hsu@amd.com                 access_perm == AccessPermission_NotPresent)
8532SLisa.Hsu@amd.com            num_invalid++;
8436SBrad.Beckmann@amd.com    }
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    // If the number of read write copies is more than 1, then there is bug in
8436SBrad.Beckmann@amd.com    // coherence protocol. Otherwise, if all copies are in stable states, i.e.
8436SBrad.Beckmann@amd.com    // num_busy == 0, we update all the copies. If there is at least one copy
8436SBrad.Beckmann@amd.com    // in busy state, then we check if there is read write copy. If yes, then
8532SLisa.Hsu@amd.com    // also we let the access go through. Or, if there is no copy in the cache
8532SLisa.Hsu@amd.com    // hierarchy at all, we still want to do the write to the memory
8532SLisa.Hsu@amd.com    // (Backing_Store) instead of failing.
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    DPRINTF(RubyPort, "num_busy = %d, num_ro = %d, num_rw = %d\n",
8436SBrad.Beckmann@amd.com            num_busy, num_ro, num_rw);
8436SBrad.Beckmann@amd.com    assert(num_rw <= 1);
8532SLisa.Hsu@amd.com
8532SLisa.Hsu@amd.com    uint8* data = pkt->getPtr<uint8_t>(true);
8532SLisa.Hsu@amd.com    unsigned int size_in_bytes = pkt->getSize();
8532SLisa.Hsu@amd.com    unsigned startByte = addr.getAddress() - line_addr.getAddress();
8532SLisa.Hsu@amd.com
8532SLisa.Hsu@amd.com    if ((num_busy == 0 && num_ro > 0) || num_rw == 1 ||
8532SLisa.Hsu@amd.com            (num_invalid == (num_controllers - 1) && num_backing_store == 1))
8436SBrad.Beckmann@amd.com    {
8532SLisa.Hsu@amd.com        for(int i = 0; i < num_controllers;++i) {
8532SLisa.Hsu@amd.com            access_perm = ruby_system->m_abs_cntrl_vec[i]->
8436SBrad.Beckmann@amd.com                                                getAccessPermission(line_addr);
8532SLisa.Hsu@amd.com            if(access_perm == AccessPermission_Read_Only ||
8532SLisa.Hsu@amd.com               access_perm == AccessPermission_Read_Write||
8532SLisa.Hsu@amd.com               access_perm == AccessPermission_Maybe_Stale ||
8532SLisa.Hsu@amd.com               access_perm == AccessPermission_Backing_Store)
8436SBrad.Beckmann@amd.com            {
8436SBrad.Beckmann@amd.com                DataBlock& block = ruby_system->m_abs_cntrl_vec[i]
8436SBrad.Beckmann@amd.com                                                      ->getDataBlock(line_addr);
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com                DPRINTF(RubyPort, "%s\n",block);
8532SLisa.Hsu@amd.com                for (unsigned i = 0; i < size_in_bytes; ++i) {
8436SBrad.Beckmann@amd.com                  block.setByte(i + startByte, data[i]);
8436SBrad.Beckmann@amd.com                }
8436SBrad.Beckmann@amd.com                DPRINTF(RubyPort, "%s\n",block);
8436SBrad.Beckmann@amd.com            }
8436SBrad.Beckmann@amd.com        }
8436SBrad.Beckmann@amd.com        return true;
8436SBrad.Beckmann@amd.com    }
8436SBrad.Beckmann@amd.com    return false;
8436SBrad.Beckmann@amd.com}
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.comvoid
8436SBrad.Beckmann@amd.comRubyPort::M5Port::recvFunctional(PacketPtr pkt)
8436SBrad.Beckmann@amd.com{
8436SBrad.Beckmann@amd.com    DPRINTF(RubyPort, "Functional access caught for address %#x\n",
8436SBrad.Beckmann@amd.com                                                           pkt->getAddr());
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    // Check for pio requests and directly send them to the dedicated
8436SBrad.Beckmann@amd.com    // pio port.
8436SBrad.Beckmann@amd.com    if (!isPhysMemAddress(pkt->getAddr())) {
8851Sandreas.hansson@arm.com        assert(ruby_port->pio_port.isConnected());
8436SBrad.Beckmann@amd.com        DPRINTF(RubyPort, "Request for address 0x%#x is a pio request\n",
8436SBrad.Beckmann@amd.com                                                           pkt->getAddr());
8436SBrad.Beckmann@amd.com        panic("RubyPort::PioPort::recvFunctional() not implemented!\n");
8436SBrad.Beckmann@amd.com    }
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    assert(pkt->getAddr() + pkt->getSize() <=
8436SBrad.Beckmann@amd.com                line_address(Address(pkt->getAddr())).getAddress() +
8436SBrad.Beckmann@amd.com                RubySystem::getBlockSizeBytes());
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    bool accessSucceeded = false;
8436SBrad.Beckmann@amd.com    bool needsResponse = pkt->needsResponse();
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    // Do the functional access on ruby memory
8436SBrad.Beckmann@amd.com    if (pkt->isRead()) {
8436SBrad.Beckmann@amd.com        accessSucceeded = doFunctionalRead(pkt);
8436SBrad.Beckmann@amd.com    } else if (pkt->isWrite()) {
8436SBrad.Beckmann@amd.com        accessSucceeded = doFunctionalWrite(pkt);
8436SBrad.Beckmann@amd.com    } else {
8436SBrad.Beckmann@amd.com        panic("RubyPort: unsupported functional command %s\n",
8436SBrad.Beckmann@amd.com              pkt->cmdString());
8436SBrad.Beckmann@amd.com    }
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    // Unless the requester explicitly said otherwise, generate an error if
8436SBrad.Beckmann@amd.com    // the functional request failed
8436SBrad.Beckmann@amd.com    if (!accessSucceeded && !pkt->suppressFuncError()) {
8436SBrad.Beckmann@amd.com        fatal("Ruby functional %s failed for address %#x\n",
8436SBrad.Beckmann@amd.com              pkt->isWrite() ? "write" : "read", pkt->getAddr());
8436SBrad.Beckmann@amd.com    }
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    if (access_phys_mem) {
8436SBrad.Beckmann@amd.com        // The attached physmem contains the official version of data.
8436SBrad.Beckmann@amd.com        // The following command performs the real functional access.
8436SBrad.Beckmann@amd.com        // This line should be removed once Ruby supplies the official version
8436SBrad.Beckmann@amd.com        // of data.
8851Sandreas.hansson@arm.com        ruby_port->physMemPort.sendFunctional(pkt);
8436SBrad.Beckmann@amd.com    }
8436SBrad.Beckmann@amd.com
8436SBrad.Beckmann@amd.com    // turn packet around to go back to requester if response expected
8436SBrad.Beckmann@amd.com    if (needsResponse) {
8436SBrad.Beckmann@amd.com        pkt->setFunctionalResponseStatus(accessSucceeded);
8706Sandreas.hansson@arm.com
8706Sandreas.hansson@arm.com        // @todo There should not be a reverse call since the response is
8706Sandreas.hansson@arm.com        // communicated through the packet pointer
8706Sandreas.hansson@arm.com        // DPRINTF(RubyPort, "Sending packet back over port\n");
8706Sandreas.hansson@arm.com        // sendFunctional(pkt);
8436SBrad.Beckmann@amd.com    }
8436SBrad.Beckmann@amd.com    DPRINTF(RubyPort, "Functional access %s!\n",
8436SBrad.Beckmann@amd.com            accessSucceeded ? "successful":"failed");
8436SBrad.Beckmann@amd.com}
8436SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.comvoid
6922SBrad.Beckmann@amd.comRubyPort::ruby_hit_callback(PacketPtr pkt)
6882SBrad.Beckmann@amd.com{
6922SBrad.Beckmann@amd.com    // Retrieve the request port from the sender State
7039Snate@binkert.org    RubyPort::SenderState *senderState =
6922SBrad.Beckmann@amd.com        safe_cast<RubyPort::SenderState *>(pkt->senderState);
6922SBrad.Beckmann@amd.com    M5Port *port = senderState->port;
6922SBrad.Beckmann@amd.com    assert(port != NULL);
7039Snate@binkert.org
6922SBrad.Beckmann@amd.com    // pop the sender state from the packet
6922SBrad.Beckmann@amd.com    pkt->senderState = senderState->saved;
6922SBrad.Beckmann@amd.com    delete senderState;
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.com    port->hitCallback(pkt);
7910SBrad.Beckmann@amd.com
7910SBrad.Beckmann@amd.com    //
7910SBrad.Beckmann@amd.com    // If we had to stall the M5Ports, wake them up because the sequencer
7910SBrad.Beckmann@amd.com    // likely has free resources now.
7910SBrad.Beckmann@amd.com    //
7910SBrad.Beckmann@amd.com    if (waitingOnSequencer) {
8162SBrad.Beckmann@amd.com        //
8162SBrad.Beckmann@amd.com        // Record the current list of ports to retry on a temporary list before
8162SBrad.Beckmann@amd.com        // calling sendRetry on those ports.  sendRetry will cause an
8162SBrad.Beckmann@amd.com        // immediate retry, which may result in the ports being put back on the
8162SBrad.Beckmann@amd.com        // list. Therefore we want to clear the retryList before calling
8162SBrad.Beckmann@amd.com        // sendRetry.
8162SBrad.Beckmann@amd.com        //
8162SBrad.Beckmann@amd.com        std::list<M5Port*> curRetryList(retryList);
8162SBrad.Beckmann@amd.com
8162SBrad.Beckmann@amd.com        retryList.clear();
8162SBrad.Beckmann@amd.com        waitingOnSequencer = false;
8162SBrad.Beckmann@amd.com
8162SBrad.Beckmann@amd.com        for (std::list<M5Port*>::iterator i = curRetryList.begin();
8162SBrad.Beckmann@amd.com             i != curRetryList.end(); ++i) {
8162SBrad.Beckmann@amd.com            DPRINTF(RubyPort,
7910SBrad.Beckmann@amd.com                    "Sequencer may now be free.  SendRetry to port %s\n",
7910SBrad.Beckmann@amd.com                    (*i)->name());
8162SBrad.Beckmann@amd.com            (*i)->onRetryList(false);
8162SBrad.Beckmann@amd.com            (*i)->sendRetry();
7910SBrad.Beckmann@amd.com        }
7910SBrad.Beckmann@amd.com    }
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.edu    testDrainComplete();
8688Snilay@cs.wisc.edu}
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.eduvoid
8688Snilay@cs.wisc.eduRubyPort::testDrainComplete()
8688Snilay@cs.wisc.edu{
8688Snilay@cs.wisc.edu    //If we weren't able to drain before, we might be able to now.
8688Snilay@cs.wisc.edu    if (drainEvent != NULL) {
8688Snilay@cs.wisc.edu        unsigned int drainCount = getDrainCount(drainEvent);
8688Snilay@cs.wisc.edu        DPRINTF(Config, "Drain count: %u\n", drainCount);
8688Snilay@cs.wisc.edu        if (drainCount == 0) {
8688Snilay@cs.wisc.edu            drainEvent->process();
8688Snilay@cs.wisc.edu            // Clear the drain event once we're done with it.
8688Snilay@cs.wisc.edu            drainEvent = NULL;
8688Snilay@cs.wisc.edu        }
8688Snilay@cs.wisc.edu    }
8688Snilay@cs.wisc.edu}
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.eduunsigned int
8688Snilay@cs.wisc.eduRubyPort::getDrainCount(Event *de)
8688Snilay@cs.wisc.edu{
8688Snilay@cs.wisc.edu    int count = 0;
8688Snilay@cs.wisc.edu    //
8688Snilay@cs.wisc.edu    // If the sequencer is not empty, then requests need to drain.
8688Snilay@cs.wisc.edu    // The outstandingCount is the number of requests outstanding and thus the
8688Snilay@cs.wisc.edu    // number of times M5's timing port will process the drain event.
8688Snilay@cs.wisc.edu    //
8688Snilay@cs.wisc.edu    count += outstandingCount();
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.edu    DPRINTF(Config, "outstanding count %d\n", outstandingCount());
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.edu    // To simplify the draining process, the sequencer's deadlock detection
8688Snilay@cs.wisc.edu    // event should have been descheduled.
8688Snilay@cs.wisc.edu    assert(isDeadlockEventScheduled() == false);
8688Snilay@cs.wisc.edu
8851Sandreas.hansson@arm.com    if (pio_port.isConnected()) {
8851Sandreas.hansson@arm.com        count += pio_port.drain(de);
8688Snilay@cs.wisc.edu        DPRINTF(Config, "count after pio check %d\n", count);
8688Snilay@cs.wisc.edu    }
8851Sandreas.hansson@arm.com    if (physMemPort.isConnected()) {
8851Sandreas.hansson@arm.com        count += physMemPort.drain(de);
8688Snilay@cs.wisc.edu        DPRINTF(Config, "count after physmem check %d\n", count);
8688Snilay@cs.wisc.edu    }
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.edu    for (CpuPortIter p_iter = cpu_ports.begin(); p_iter != cpu_ports.end();
8688Snilay@cs.wisc.edu         p_iter++) {
8688Snilay@cs.wisc.edu        M5Port* cpu_port = *p_iter;
8688Snilay@cs.wisc.edu        count += cpu_port->drain(de);
8688Snilay@cs.wisc.edu        DPRINTF(Config, "count after cpu port check %d\n", count);
8688Snilay@cs.wisc.edu    }
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.edu    DPRINTF(Config, "final count %d\n", count);
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.edu    return count;
8688Snilay@cs.wisc.edu}
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.eduunsigned int
8688Snilay@cs.wisc.eduRubyPort::drain(Event *de)
8688Snilay@cs.wisc.edu{
8688Snilay@cs.wisc.edu    if (isDeadlockEventScheduled()) {
8688Snilay@cs.wisc.edu        descheduleDeadlockEvent();
8688Snilay@cs.wisc.edu    }
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.edu    int count = getDrainCount(de);
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.edu    // Set status
8688Snilay@cs.wisc.edu    if (count != 0) {
8688Snilay@cs.wisc.edu        drainEvent = de;
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.edu        changeState(SimObject::Draining);
8688Snilay@cs.wisc.edu        return count;
8688Snilay@cs.wisc.edu    }
8688Snilay@cs.wisc.edu
8688Snilay@cs.wisc.edu    changeState(SimObject::Drained);
8688Snilay@cs.wisc.edu    return 0;
6882SBrad.Beckmann@amd.com}
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.comvoid
6882SBrad.Beckmann@amd.comRubyPort::M5Port::hitCallback(PacketPtr pkt)
6882SBrad.Beckmann@amd.com{
6882SBrad.Beckmann@amd.com    bool needsResponse = pkt->needsResponse();
6882SBrad.Beckmann@amd.com
7550SBrad.Beckmann@amd.com    //
7915SBrad.Beckmann@amd.com    // Unless specified at configuraiton, all responses except failed SC
8184Ssomayeh@cs.wisc.edu    // and Flush operations access M5 physical memory.
7550SBrad.Beckmann@amd.com    //
7915SBrad.Beckmann@amd.com    bool accessPhysMem = access_phys_mem;
7550SBrad.Beckmann@amd.com
7550SBrad.Beckmann@amd.com    if (pkt->isLLSC()) {
7550SBrad.Beckmann@amd.com        if (pkt->isWrite()) {
7550SBrad.Beckmann@amd.com            if (pkt->req->getExtraData() != 0) {
7550SBrad.Beckmann@amd.com                //
7550SBrad.Beckmann@amd.com                // Successful SC packets convert to normal writes
7550SBrad.Beckmann@amd.com                //
7550SBrad.Beckmann@amd.com                pkt->convertScToWrite();
7550SBrad.Beckmann@amd.com            } else {
7550SBrad.Beckmann@amd.com                //
7550SBrad.Beckmann@amd.com                // Failed SC packets don't access physical memory and thus
7550SBrad.Beckmann@amd.com                // the RubyPort itself must convert it to a response.
7550SBrad.Beckmann@amd.com                //
7550SBrad.Beckmann@amd.com                accessPhysMem = false;
7550SBrad.Beckmann@amd.com            }
7550SBrad.Beckmann@amd.com        } else {
7550SBrad.Beckmann@amd.com            //
7550SBrad.Beckmann@amd.com            // All LL packets convert to normal loads so that M5 PhysMem does
7550SBrad.Beckmann@amd.com            // not lock the blocks.
7550SBrad.Beckmann@amd.com            //
7550SBrad.Beckmann@amd.com            pkt->convertLlToRead();
7550SBrad.Beckmann@amd.com        }
7550SBrad.Beckmann@amd.com    }
8184Ssomayeh@cs.wisc.edu
8184Ssomayeh@cs.wisc.edu    //
8184Ssomayeh@cs.wisc.edu    // Flush requests don't access physical memory
8184Ssomayeh@cs.wisc.edu    //
8184Ssomayeh@cs.wisc.edu    if (pkt->isFlush()) {
8184Ssomayeh@cs.wisc.edu        accessPhysMem = false;
8184Ssomayeh@cs.wisc.edu    }
8184Ssomayeh@cs.wisc.edu
8161SBrad.Beckmann@amd.com    DPRINTF(RubyPort, "Hit callback needs response %d\n", needsResponse);
6882SBrad.Beckmann@amd.com
7550SBrad.Beckmann@amd.com    if (accessPhysMem) {
8851Sandreas.hansson@arm.com        ruby_port->physMemPort.sendAtomic(pkt);
8184Ssomayeh@cs.wisc.edu    } else if (needsResponse) {
7915SBrad.Beckmann@amd.com        pkt->makeResponse();
7550SBrad.Beckmann@amd.com    }
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.com    // turn packet around to go back to requester if response expected
6882SBrad.Beckmann@amd.com    if (needsResponse) {
8161SBrad.Beckmann@amd.com        DPRINTF(RubyPort, "Sending packet back over port\n");
8874Sandreas.hansson@arm.com        sendNextCycle(pkt);
6882SBrad.Beckmann@amd.com    } else {
6882SBrad.Beckmann@amd.com        delete pkt;
6882SBrad.Beckmann@amd.com    }
8161SBrad.Beckmann@amd.com    DPRINTF(RubyPort, "Hit callback done!\n");
6882SBrad.Beckmann@amd.com}
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.combool
8874Sandreas.hansson@arm.comRubyPort::M5Port::sendNextCycle(PacketPtr pkt)
6882SBrad.Beckmann@amd.com{
7558SBrad.Beckmann@amd.com    //minimum latency, must be > 0
8914Sandreas.hansson@arm.com    queue.schedSendTiming(pkt, curTick() + (1 * g_eventQueue_ptr->getClock()));
6882SBrad.Beckmann@amd.com    return true;
6882SBrad.Beckmann@amd.com}
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.combool
8874Sandreas.hansson@arm.comRubyPort::PioPort::sendNextCycle(PacketPtr pkt)
6882SBrad.Beckmann@amd.com{
7558SBrad.Beckmann@amd.com    //minimum latency, must be > 0
8914Sandreas.hansson@arm.com    queue.schedSendTiming(pkt, curTick() + (1 * g_eventQueue_ptr->getClock()));
6882SBrad.Beckmann@amd.com    return true;
6882SBrad.Beckmann@amd.com}
6882SBrad.Beckmann@amd.com
6882SBrad.Beckmann@amd.combool
6882SBrad.Beckmann@amd.comRubyPort::M5Port::isPhysMemAddress(Addr addr)
6882SBrad.Beckmann@amd.com{
8711Sandreas.hansson@arm.com    AddrRangeList physMemAddrList =
8851Sandreas.hansson@arm.com        ruby_port->physMemPort.getPeer()->getAddrRanges();
7039Snate@binkert.org    for (AddrRangeIter iter = physMemAddrList.begin();
7039Snate@binkert.org         iter != physMemAddrList.end();
7039Snate@binkert.org         iter++) {
6882SBrad.Beckmann@amd.com        if (addr >= iter->start && addr <= iter->end) {
8161SBrad.Beckmann@amd.com            DPRINTF(RubyPort, "Request found in %#llx - %#llx range\n",
6882SBrad.Beckmann@amd.com                    iter->start, iter->end);
6882SBrad.Beckmann@amd.com            return true;
6882SBrad.Beckmann@amd.com        }
6882SBrad.Beckmann@amd.com    }
6882SBrad.Beckmann@amd.com    return false;
6882SBrad.Beckmann@amd.com}
7909Shestness@cs.utexas.edu
7909Shestness@cs.utexas.eduunsigned
7909Shestness@cs.utexas.eduRubyPort::M5Port::deviceBlockSize() const
7909Shestness@cs.utexas.edu{
7909Shestness@cs.utexas.edu    return (unsigned) RubySystem::getBlockSizeBytes();
7909Shestness@cs.utexas.edu}
8717Snilay@cs.wisc.edu
8717Snilay@cs.wisc.eduvoid
8717Snilay@cs.wisc.eduRubyPort::ruby_eviction_callback(const Address& address)
8717Snilay@cs.wisc.edu{
8717Snilay@cs.wisc.edu    DPRINTF(RubyPort, "Sending invalidations.\n");
8832SAli.Saidi@ARM.com    Request req(address.getAddress(), 0, 0, Request::funcMasterId);
8717Snilay@cs.wisc.edu    for (CpuPortIter it = cpu_ports.begin(); it != cpu_ports.end(); it++) {
8717Snilay@cs.wisc.edu        Packet *pkt = new Packet(&req, MemCmd::InvalidationReq, -1);
8874Sandreas.hansson@arm.com        (*it)->sendNextCycle(pkt);
8717Snilay@cs.wisc.edu    }
8717Snilay@cs.wisc.edu}