974a47dfb9
Apply the gem5 namespace to the codebase. Some anonymous namespaces could theoretically be removed, but since this change's main goal was to keep conflicts at a minimum, it was decided not to modify much the general shape of the files. A few missing comments of the form "// namespace X" that occurred before the newly added "} // namespace gem5" have been added for consistency. std out should not be included in the gem5 namespace, so they weren't. ProtoMessage has not been included in the gem5 namespace, since I'm not familiar with how proto works. Regarding the SystemC files, although they belong to gem5, they actually perform integration between gem5 and SystemC; therefore, it deserved its own separate namespace. Files that are automatically generated have been included in the gem5 namespace. The .isa files currently are limited to a single namespace. This limitation should be later removed to make it easier to accomodate a better API. Regarding the files in util, gem5:: was prepended where suitable. Notice that this patch was tested as much as possible given that most of these were already not previously compiling. Change-Id: Ia53d404ec79c46edaa98f654e23bc3b0e179fe2d Signed-off-by: Daniel R. Carvalho <odanrc@yahoo.com.br> Reviewed-on: https://gem5-review.googlesource.com/c/public/gem5/+/46323 Maintainer: Bobby R. Bruce <bbruce@ucdavis.edu> Reviewed-by: Bobby R. Bruce <bbruce@ucdavis.edu> Reviewed-by: Matthew Poremba <matthew.poremba@amd.com> Tested-by: kokoro <noreply+kokoro@google.com>
307 lines
13 KiB
Python
307 lines
13 KiB
Python
# Copyright (c) 2012-2013, 2015-2017 ARM Limited
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# Copyright (c) 2020 Barkhausen Institut
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# All rights reserved.
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#
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# The license below extends only to copyright in the software and shall
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# not be construed as granting a license to any other intellectual
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# property including but not limited to intellectual property relating
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# to a hardware implementation of the functionality of the software
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# licensed hereunder. You may use the software subject to the license
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# terms below provided that you ensure that this notice is replicated
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# unmodified and in its entirety in all distributions of the software,
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# modified or unmodified, in source code or in binary form.
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#
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# Copyright (c) 2005-2008 The Regents of The University of Michigan
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# Copyright (c) 2011 Regents of the University of California
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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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import sys
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from m5.SimObject import *
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from m5.defines import buildEnv
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from m5.params import *
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from m5.proxy import *
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from m5.util.fdthelper import *
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from m5.objects.ClockedObject import ClockedObject
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from m5.objects.XBar import L2XBar
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from m5.objects.InstTracer import InstTracer
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from m5.objects.CPUTracers import ExeTracer
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from m5.objects.SubSystem import SubSystem
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from m5.objects.ClockDomain import *
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from m5.objects.Platform import Platform
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default_tracer = ExeTracer()
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if buildEnv['TARGET_ISA'] == 'sparc':
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from m5.objects.SparcMMU import SparcMMU as ArchMMU
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from m5.objects.SparcInterrupts import SparcInterrupts as ArchInterrupts
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from m5.objects.SparcISA import SparcISA as ArchISA
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elif buildEnv['TARGET_ISA'] == 'x86':
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from m5.objects.X86MMU import X86MMU as ArchMMU
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from m5.objects.X86LocalApic import X86LocalApic as ArchInterrupts
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from m5.objects.X86ISA import X86ISA as ArchISA
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elif buildEnv['TARGET_ISA'] == 'mips':
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from m5.objects.MipsMMU import MipsMMU as ArchMMU
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from m5.objects.MipsInterrupts import MipsInterrupts as ArchInterrupts
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from m5.objects.MipsISA import MipsISA as ArchISA
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elif buildEnv['TARGET_ISA'] == 'arm':
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from m5.objects.ArmMMU import ArmMMU as ArchMMU
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from m5.objects.ArmInterrupts import ArmInterrupts as ArchInterrupts
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from m5.objects.ArmISA import ArmISA as ArchISA
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elif buildEnv['TARGET_ISA'] == 'power':
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from m5.objects.PowerMMU import PowerMMU as ArchMMU
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from m5.objects.PowerInterrupts import PowerInterrupts as ArchInterrupts
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from m5.objects.PowerISA import PowerISA as ArchISA
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elif buildEnv['TARGET_ISA'] == 'riscv':
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from m5.objects.RiscvMMU import RiscvMMU as ArchMMU
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from m5.objects.RiscvInterrupts import RiscvInterrupts as ArchInterrupts
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from m5.objects.RiscvISA import RiscvISA as ArchISA
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else:
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print("Don't know what object types to use for ISA %s" %
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buildEnv['TARGET_ISA'])
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sys.exit(1)
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class BaseCPU(ClockedObject):
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type = 'BaseCPU'
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abstract = True
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cxx_header = "cpu/base.hh"
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cxx_class = 'gem5::BaseCPU'
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cxx_exports = [
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PyBindMethod("switchOut"),
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PyBindMethod("takeOverFrom"),
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PyBindMethod("switchedOut"),
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PyBindMethod("flushTLBs"),
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PyBindMethod("totalInsts"),
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PyBindMethod("scheduleInstStop"),
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PyBindMethod("getCurrentInstCount"),
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]
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@classmethod
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def memory_mode(cls):
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"""Which memory mode does this CPU require?"""
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return 'invalid'
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@classmethod
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def require_caches(cls):
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"""Does the CPU model require caches?
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Some CPU models might make assumptions that require them to
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have caches.
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"""
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return False
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@classmethod
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def support_take_over(cls):
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"""Does the CPU model support CPU takeOverFrom?"""
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return False
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def takeOverFrom(self, old_cpu):
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self._ccObject.takeOverFrom(old_cpu._ccObject)
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system = Param.System(Parent.any, "system object")
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cpu_id = Param.Int(-1, "CPU identifier")
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socket_id = Param.Unsigned(0, "Physical Socket identifier")
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numThreads = Param.Unsigned(1, "number of HW thread contexts")
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pwr_gating_latency = Param.Cycles(300,
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"Latency to enter power gating state when all contexts are suspended")
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power_gating_on_idle = Param.Bool(False, "Control whether the core goes "\
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"to the OFF power state after all thread are disabled for "\
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"pwr_gating_latency cycles")
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function_trace = Param.Bool(False, "Enable function trace")
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function_trace_start = Param.Tick(0, "Tick to start function trace")
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checker = Param.BaseCPU(NULL, "checker CPU")
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syscallRetryLatency = Param.Cycles(10000, "Cycles to wait until retry")
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do_checkpoint_insts = Param.Bool(True,
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"enable checkpoint pseudo instructions")
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do_statistics_insts = Param.Bool(True,
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"enable statistics pseudo instructions")
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workload = VectorParam.Process([], "processes to run")
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mmu = Param.BaseMMU(ArchMMU(), "CPU memory management unit")
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if buildEnv['TARGET_ISA'] == 'power':
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UnifiedTLB = Param.Bool(True, "Is this a Unified TLB?")
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interrupts = VectorParam.BaseInterrupts([], "Interrupt Controller")
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isa = VectorParam.BaseISA([], "ISA instance")
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max_insts_all_threads = Param.Counter(0,
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"terminate when all threads have reached this inst count")
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max_insts_any_thread = Param.Counter(0,
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"terminate when any thread reaches this inst count")
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simpoint_start_insts = VectorParam.Counter([],
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"starting instruction counts of simpoints")
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progress_interval = Param.Frequency('0Hz',
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"frequency to print out the progress message")
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switched_out = Param.Bool(False,
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"Leave the CPU switched out after startup (used when switching " \
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"between CPU models)")
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tracer = Param.InstTracer(default_tracer, "Instruction tracer")
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icache_port = RequestPort("Instruction Port")
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dcache_port = RequestPort("Data Port")
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_cached_ports = ['icache_port', 'dcache_port']
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_cached_ports += ArchMMU.walkerPorts()
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_uncached_interrupt_response_ports = []
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_uncached_interrupt_request_ports = []
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if buildEnv['TARGET_ISA'] == 'x86':
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_uncached_interrupt_response_ports += ["interrupts[0].pio",
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"interrupts[0].int_responder"]
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_uncached_interrupt_request_ports += ["interrupts[0].int_requestor"]
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def createInterruptController(self):
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self.interrupts = [ArchInterrupts() for i in range(self.numThreads)]
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def connectCachedPorts(self, bus):
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for p in self._cached_ports:
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exec('self.%s = bus.slave' % p)
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def connectUncachedPorts(self, bus):
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for p in self._uncached_interrupt_response_ports:
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exec('self.%s = bus.master' % p)
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for p in self._uncached_interrupt_request_ports:
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exec('self.%s = bus.slave' % p)
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def connectAllPorts(self, cached_bus, uncached_bus = None):
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self.connectCachedPorts(cached_bus)
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if not uncached_bus:
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uncached_bus = cached_bus
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self.connectUncachedPorts(uncached_bus)
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def addPrivateSplitL1Caches(self, ic, dc, iwc = None, dwc = None):
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self.icache = ic
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self.dcache = dc
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self.icache_port = ic.cpu_side
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self.dcache_port = dc.cpu_side
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self._cached_ports = ['icache.mem_side', 'dcache.mem_side']
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if buildEnv['TARGET_ISA'] in ['x86', 'arm', 'riscv']:
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if iwc and dwc:
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self.itb_walker_cache = iwc
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self.dtb_walker_cache = dwc
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self.mmu.connectWalkerPorts(
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iwc.cpu_side, dwc.cpu_side)
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self._cached_ports += ["itb_walker_cache.mem_side", \
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"dtb_walker_cache.mem_side"]
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else:
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self._cached_ports += ArchMMU.walkerPorts()
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# Checker doesn't need its own tlb caches because it does
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# functional accesses only
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if self.checker != NULL:
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self._cached_ports += [ "checker." + port
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for port in ArchMMU.walkerPorts() ]
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def addTwoLevelCacheHierarchy(self, ic, dc, l2c, iwc=None, dwc=None,
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xbar=None):
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self.addPrivateSplitL1Caches(ic, dc, iwc, dwc)
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self.toL2Bus = xbar if xbar else L2XBar()
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self.connectCachedPorts(self.toL2Bus)
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self.l2cache = l2c
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self.toL2Bus.mem_side_ports = self.l2cache.cpu_side
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self._cached_ports = ['l2cache.mem_side']
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def createThreads(self):
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# If no ISAs have been created, assume that the user wants the
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# default ISA.
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if len(self.isa) == 0:
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self.isa = [ ArchISA() for i in range(self.numThreads) ]
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else:
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if len(self.isa) != int(self.numThreads):
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raise RuntimeError("Number of ISA instances doesn't "
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"match thread count")
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if self.checker != NULL:
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self.checker.createThreads()
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def addCheckerCpu(self):
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pass
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def createPhandleKey(self, thread):
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# This method creates a unique key for this cpu as a function of a
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# certain thread
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return 'CPU-%d-%d-%d' % (self.socket_id, self.cpu_id, thread)
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#Generate simple CPU Device Tree structure
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def generateDeviceTree(self, state):
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"""Generate cpu nodes for each thread and the corresponding part of the
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cpu-map node. Note that this implementation does not support clusters
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of clusters. Note that GEM5 is not compatible with the official way of
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numbering cores as defined in the Device Tree documentation. Where the
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cpu_id needs to reset to 0 for each cluster by specification, GEM5
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expects the cpu_id to be globally unique and incremental. This
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generated node adheres the GEM5 way of doing things."""
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if bool(self.switched_out):
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return
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cpus_node = FdtNode('cpus')
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cpus_node.append(state.CPUCellsProperty())
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#Special size override of 0
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cpus_node.append(FdtPropertyWords('#size-cells', [0]))
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# Generate cpu nodes
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for i in range(int(self.numThreads)):
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reg = (int(self.socket_id)<<8) + int(self.cpu_id) + i
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node = FdtNode("cpu@%x" % reg)
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node.append(FdtPropertyStrings("device_type", "cpu"))
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node.appendCompatible(["gem5,arm-cpu"])
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node.append(FdtPropertyWords("reg", state.CPUAddrCells(reg)))
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platform, found = self.system.unproxy(self).find_any(Platform)
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if found:
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platform.annotateCpuDeviceNode(node, state)
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else:
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warn("Platform not found for device tree generation; " \
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"system or multiple CPUs may not start")
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freq = int(self.clk_domain.unproxy(self).clock[0].frequency)
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node.append(FdtPropertyWords("clock-frequency", freq))
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# Unique key for this CPU
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phandle_key = self.createPhandleKey(i)
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node.appendPhandle(phandle_key)
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cpus_node.append(node)
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yield cpus_node
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# Generate nodes from the BaseCPU children (hence under the root node,
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# and don't add them as subnode). Please note: this is mainly needed
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# for the ISA class, to generate the PMU entry in the DTB.
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for child_node in self.recurseDeviceTree(state):
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yield child_node
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def __init__(self, **kwargs):
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super(BaseCPU, self).__init__(**kwargs)
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self.power_state.possible_states=['ON', 'CLK_GATED', 'OFF']
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