480 lines
12 KiB
C++
480 lines
12 KiB
C++
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/*
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* Copyright (c) 2002-2005 The Regents of The University of Michigan
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are
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* met: redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer;
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* redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution;
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* neither the name of the copyright holders nor the names of its
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* contributors may be used to endorse or promote products derived from
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* this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include "arch/utility.hh"
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#include "base/cprintf.hh"
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#include "base/inifile.hh"
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#include "base/loader/symtab.hh"
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#include "base/misc.hh"
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#include "base/pollevent.hh"
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#include "base/range.hh"
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#include "base/stats/events.hh"
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#include "base/trace.hh"
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#include "cpu/base.hh"
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#include "cpu/cpu_exec_context.hh"
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#include "cpu/exec_context.hh"
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#include "cpu/exetrace.hh"
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#include "cpu/profile.hh"
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#include "cpu/sampler/sampler.hh"
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#include "cpu/simple/base.hh"
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#include "cpu/smt.hh"
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#include "cpu/static_inst.hh"
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#include "kern/kernel_stats.hh"
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#include "mem/packet_impl.hh"
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#include "sim/byteswap.hh"
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#include "sim/builder.hh"
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#include "sim/debug.hh"
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#include "sim/host.hh"
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#include "sim/sim_events.hh"
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#include "sim/sim_object.hh"
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#include "sim/stats.hh"
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#if FULL_SYSTEM
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#include "base/remote_gdb.hh"
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#include "sim/system.hh"
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#include "arch/tlb.hh"
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#include "arch/stacktrace.hh"
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#include "arch/vtophys.hh"
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#else // !FULL_SYSTEM
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#include "mem/mem_object.hh"
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#endif // FULL_SYSTEM
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using namespace std;
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using namespace TheISA;
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BaseSimpleCPU::BaseSimpleCPU(Params *p)
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: BaseCPU(p), mem(p->mem), cpuXC(NULL)
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{
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#if FULL_SYSTEM
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cpuXC = new CPUExecContext(this, 0, p->system, p->itb, p->dtb);
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#else
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cpuXC = new CPUExecContext(this, /* thread_num */ 0, p->process,
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/* asid */ 0, mem);
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#endif // !FULL_SYSTEM
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xcProxy = cpuXC->getProxy();
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numInst = 0;
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startNumInst = 0;
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numLoad = 0;
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startNumLoad = 0;
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lastIcacheStall = 0;
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lastDcacheStall = 0;
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execContexts.push_back(xcProxy);
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}
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BaseSimpleCPU::~BaseSimpleCPU()
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{
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}
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void
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BaseSimpleCPU::deallocateContext(int thread_num)
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{
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// for now, these are equivalent
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suspendContext(thread_num);
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}
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void
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BaseSimpleCPU::haltContext(int thread_num)
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{
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// for now, these are equivalent
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suspendContext(thread_num);
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}
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void
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BaseSimpleCPU::regStats()
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{
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using namespace Stats;
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BaseCPU::regStats();
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numInsts
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.name(name() + ".num_insts")
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.desc("Number of instructions executed")
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;
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numMemRefs
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.name(name() + ".num_refs")
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.desc("Number of memory references")
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;
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notIdleFraction
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.name(name() + ".not_idle_fraction")
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.desc("Percentage of non-idle cycles")
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;
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idleFraction
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.name(name() + ".idle_fraction")
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.desc("Percentage of idle cycles")
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;
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icacheStallCycles
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.name(name() + ".icache_stall_cycles")
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.desc("ICache total stall cycles")
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.prereq(icacheStallCycles)
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;
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dcacheStallCycles
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.name(name() + ".dcache_stall_cycles")
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.desc("DCache total stall cycles")
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.prereq(dcacheStallCycles)
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;
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icacheRetryCycles
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.name(name() + ".icache_retry_cycles")
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.desc("ICache total retry cycles")
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.prereq(icacheRetryCycles)
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;
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dcacheRetryCycles
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.name(name() + ".dcache_retry_cycles")
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.desc("DCache total retry cycles")
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.prereq(dcacheRetryCycles)
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;
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idleFraction = constant(1.0) - notIdleFraction;
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}
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void
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BaseSimpleCPU::resetStats()
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{
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startNumInst = numInst;
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// notIdleFraction = (_status != Idle);
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}
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void
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BaseSimpleCPU::serialize(ostream &os)
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{
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BaseCPU::serialize(os);
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SERIALIZE_SCALAR(inst);
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nameOut(os, csprintf("%s.xc", name()));
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cpuXC->serialize(os);
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}
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void
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BaseSimpleCPU::unserialize(Checkpoint *cp, const string §ion)
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{
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BaseCPU::unserialize(cp, section);
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UNSERIALIZE_SCALAR(inst);
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cpuXC->unserialize(cp, csprintf("%s.xc", section));
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}
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void
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change_thread_state(int thread_number, int activate, int priority)
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{
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}
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Fault
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BaseSimpleCPU::copySrcTranslate(Addr src)
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{
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#if 0
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static bool no_warn = true;
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int blk_size = (dcacheInterface) ? dcacheInterface->getBlockSize() : 64;
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// Only support block sizes of 64 atm.
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assert(blk_size == 64);
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int offset = src & (blk_size - 1);
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// Make sure block doesn't span page
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if (no_warn &&
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(src & PageMask) != ((src + blk_size) & PageMask) &&
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(src >> 40) != 0xfffffc) {
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warn("Copied block source spans pages %x.", src);
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no_warn = false;
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}
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memReq->reset(src & ~(blk_size - 1), blk_size);
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// translate to physical address
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Fault fault = cpuXC->translateDataReadReq(req);
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if (fault == NoFault) {
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cpuXC->copySrcAddr = src;
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cpuXC->copySrcPhysAddr = memReq->paddr + offset;
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} else {
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assert(!fault->isAlignmentFault());
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cpuXC->copySrcAddr = 0;
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cpuXC->copySrcPhysAddr = 0;
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}
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return fault;
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#else
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return NoFault;
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#endif
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}
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Fault
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BaseSimpleCPU::copy(Addr dest)
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{
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#if 0
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static bool no_warn = true;
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int blk_size = (dcacheInterface) ? dcacheInterface->getBlockSize() : 64;
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// Only support block sizes of 64 atm.
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assert(blk_size == 64);
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uint8_t data[blk_size];
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//assert(cpuXC->copySrcAddr);
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int offset = dest & (blk_size - 1);
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// Make sure block doesn't span page
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if (no_warn &&
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(dest & PageMask) != ((dest + blk_size) & PageMask) &&
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(dest >> 40) != 0xfffffc) {
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no_warn = false;
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warn("Copied block destination spans pages %x. ", dest);
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}
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memReq->reset(dest & ~(blk_size -1), blk_size);
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// translate to physical address
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Fault fault = cpuXC->translateDataWriteReq(req);
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if (fault == NoFault) {
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Addr dest_addr = memReq->paddr + offset;
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// Need to read straight from memory since we have more than 8 bytes.
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memReq->paddr = cpuXC->copySrcPhysAddr;
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cpuXC->mem->read(memReq, data);
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memReq->paddr = dest_addr;
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cpuXC->mem->write(memReq, data);
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if (dcacheInterface) {
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memReq->cmd = Copy;
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memReq->completionEvent = NULL;
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memReq->paddr = cpuXC->copySrcPhysAddr;
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memReq->dest = dest_addr;
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memReq->size = 64;
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memReq->time = curTick;
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memReq->flags &= ~INST_READ;
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dcacheInterface->access(memReq);
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}
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}
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else
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assert(!fault->isAlignmentFault());
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return fault;
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#else
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panic("copy not implemented");
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return NoFault;
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#endif
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}
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#if FULL_SYSTEM
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Addr
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BaseSimpleCPU::dbg_vtophys(Addr addr)
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{
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return vtophys(xcProxy, addr);
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}
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#endif // FULL_SYSTEM
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#if FULL_SYSTEM
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void
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BaseSimpleCPU::post_interrupt(int int_num, int index)
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{
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BaseCPU::post_interrupt(int_num, index);
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if (cpuXC->status() == ExecContext::Suspended) {
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DPRINTF(IPI,"Suspended Processor awoke\n");
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cpuXC->activate();
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}
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}
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#endif // FULL_SYSTEM
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void
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BaseSimpleCPU::checkForInterrupts()
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{
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#if FULL_SYSTEM
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if (checkInterrupts && check_interrupts() && !cpuXC->inPalMode() &&
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status() != IcacheAccessComplete) {
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int ipl = 0;
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int summary = 0;
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checkInterrupts = false;
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if (cpuXC->readMiscReg(IPR_SIRR)) {
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for (int i = INTLEVEL_SOFTWARE_MIN;
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i < INTLEVEL_SOFTWARE_MAX; i++) {
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if (cpuXC->readMiscReg(IPR_SIRR) & (ULL(1) << i)) {
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// See table 4-19 of 21164 hardware reference
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ipl = (i - INTLEVEL_SOFTWARE_MIN) + 1;
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summary |= (ULL(1) << i);
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}
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}
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}
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uint64_t interrupts = cpuXC->cpu->intr_status();
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for (int i = INTLEVEL_EXTERNAL_MIN;
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i < INTLEVEL_EXTERNAL_MAX; i++) {
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if (interrupts & (ULL(1) << i)) {
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// See table 4-19 of 21164 hardware reference
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ipl = i;
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summary |= (ULL(1) << i);
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}
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}
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if (cpuXC->readMiscReg(IPR_ASTRR))
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panic("asynchronous traps not implemented\n");
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if (ipl && ipl > cpuXC->readMiscReg(IPR_IPLR)) {
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cpuXC->setMiscReg(IPR_ISR, summary);
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cpuXC->setMiscReg(IPR_INTID, ipl);
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Fault(new InterruptFault)->invoke(xcProxy);
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DPRINTF(Flow, "Interrupt! IPLR=%d ipl=%d summary=%x\n",
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cpuXC->readMiscReg(IPR_IPLR), ipl, summary);
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}
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}
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#endif
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}
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Fault
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BaseSimpleCPU::setupFetchPacket(Packet *ifetch_pkt)
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{
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// Try to fetch an instruction
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// set up memory request for instruction fetch
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DPRINTF(Fetch,"Fetch: PC:%08p NPC:%08p NNPC:%08p\n",cpuXC->readPC(),
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cpuXC->readNextPC(),cpuXC->readNextNPC());
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Request *ifetch_req = ifetch_pkt->req;
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ifetch_req->setVaddr(cpuXC->readPC() & ~3);
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ifetch_req->setTime(curTick);
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#if FULL_SYSTEM
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ifetch_req->setFlags((cpuXC->readPC() & 1) ? PHYSICAL : 0);
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#else
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ifetch_req->setFlags(0);
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#endif
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Fault fault = cpuXC->translateInstReq(ifetch_req);
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if (fault == NoFault) {
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ifetch_pkt->addr = ifetch_req->getPaddr();
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}
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return fault;
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}
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void
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BaseSimpleCPU::preExecute()
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{
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// maintain $r0 semantics
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cpuXC->setIntReg(ZeroReg, 0);
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#if THE_ISA == ALPHA_ISA
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cpuXC->setFloatReg(ZeroReg, 0.0);
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#endif // ALPHA_ISA
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// keep an instruction count
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numInst++;
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numInsts++;
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cpuXC->func_exe_inst++;
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// check for instruction-count-based events
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comInstEventQueue[0]->serviceEvents(numInst);
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// decode the instruction
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inst = gtoh(inst);
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curStaticInst = StaticInst::decode(makeExtMI(inst, cpuXC->readPC()));
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traceData = Trace::getInstRecord(curTick, xcProxy, this, curStaticInst,
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cpuXC->readPC());
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DPRINTF(Decode,"Decode: Decoded %s instruction (opcode: 0x%x): 0x%x\n",
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curStaticInst->getName(), curStaticInst->getOpcode(),
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curStaticInst->machInst);
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#if FULL_SYSTEM
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cpuXC->setInst(inst);
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#endif // FULL_SYSTEM
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}
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void
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BaseSimpleCPU::postExecute()
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{
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#if FULL_SYSTEM
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if (system->kernelBinning->fnbin) {
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assert(kernelStats);
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system->kernelBinning->execute(xcProxy, inst);
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}
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if (cpuXC->profile) {
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bool usermode =
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(cpuXC->readMiscReg(AlphaISA::IPR_DTB_CM) & 0x18) != 0;
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cpuXC->profilePC = usermode ? 1 : cpuXC->readPC();
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ProfileNode *node = cpuXC->profile->consume(xcProxy, inst);
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if (node)
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cpuXC->profileNode = node;
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}
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#endif
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if (curStaticInst->isMemRef()) {
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numMemRefs++;
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}
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if (curStaticInst->isLoad()) {
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++numLoad;
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comLoadEventQueue[0]->serviceEvents(numLoad);
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}
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traceFunctions(cpuXC->readPC());
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}
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void
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BaseSimpleCPU::advancePC(Fault fault)
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{
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if (fault != NoFault) {
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#if FULL_SYSTEM
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fault->invoke(xcProxy);
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#else // !FULL_SYSTEM
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||
|
fatal("fault (%s) detected @ PC %08p", fault->name(), cpuXC->readPC());
|
||
|
#endif // FULL_SYSTEM
|
||
|
}
|
||
|
else {
|
||
|
// go to the next instruction
|
||
|
cpuXC->setPC(cpuXC->readNextPC());
|
||
|
#if THE_ISA == ALPHA_ISA
|
||
|
cpuXC->setNextPC(cpuXC->readNextPC() + sizeof(MachInst));
|
||
|
#else
|
||
|
cpuXC->setNextPC(cpuXC->readNextNPC());
|
||
|
cpuXC->setNextNPC(cpuXC->readNextNPC() + sizeof(MachInst));
|
||
|
#endif
|
||
|
|
||
|
}
|
||
|
|
||
|
#if FULL_SYSTEM
|
||
|
Addr oldpc;
|
||
|
do {
|
||
|
oldpc = cpuXC->readPC();
|
||
|
system->pcEventQueue.service(xcProxy);
|
||
|
} while (oldpc != cpuXC->readPC());
|
||
|
#endif
|
||
|
}
|
||
|
|