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# -*- coding: utf-8 -*-
# Copyright (c) 2015 Jason Power
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met: redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer;
# redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution;
# neither the name of the copyright holders nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
# Authors: Jason Power
""" This file creates a set of Ruby caches, the Ruby network, and a simple
point-to-point topology.
See Part 3 in the Learning gem5 book: learning.gem5.org/book/part3
You can change simple_ruby to import from this file instead of from msi_caches
to use the MI_example protocol instead of MSI.
IMPORTANT: If you modify this file, it's likely that the Learning gem5 book
also needs to be updated. For now, email Jason <jason@lowepower.com>
"""
from __future__ import print_function
from __future__ import absolute_import
import math
from m5.defines import buildEnv
from m5.util import fatal, panic
from m5.objects import *
class MIExampleSystem(RubySystem):
def __init__(self):
if buildEnv['PROTOCOL'] != 'MI_example':
fatal("This system assumes MI_example!")
super(MIExampleSystem, self).__init__()
def setup(self, system, cpus, mem_ctrls, dma_ports, iobus):
"""Set up the Ruby cache subsystem. Note: This can't be done in the
constructor because many of these items require a pointer to the
ruby system (self). This causes infinite recursion in initialize()
if we do this in the __init__.
"""
# Ruby's global network.
self.network = MyNetwork(self)
# MI example uses 5 virtual networks
self.number_of_virtual_networks = 5
self.network.number_of_virtual_networks = 5
# There is a single global list of all of the controllers to make it
# easier to connect everything to the global network. This can be
# customized depending on the topology/network requirements.
# Create one controller for each L1 cache (and the cache mem obj.)
# Create a single directory controller (Really the memory cntrl)
self.controllers = \
[L1Cache(system, self, cpu) for cpu in cpus] + \
[DirController(self, system.mem_ranges, mem_ctrls)] + \
[DMAController(self) for i in range(len(dma_ports))]
# Create one sequencer per CPU. In many systems this is more
# complicated since you have to create sequencers for DMA controllers
# and other controllers, too.
self.sequencers = [RubySequencer(version = i,
# Grab dcache from ctrl
dcache = self.controllers[i].cacheMemory,
clk_domain = self.controllers[i].clk_domain,
pio_request_port = iobus.cpu_side_ports,
mem_request_port = iobus.cpu_side_ports,
pio_response_port = iobus.mem_side_ports
) for i in range(len(cpus))] + \
[DMASequencer(version = i,
in_ports = port)
for i,port in enumerate(dma_ports)
]
for i,c in enumerate(self.controllers[0:len(cpus)]):
c.sequencer = self.sequencers[i]
for i,d in enumerate(self.controllers[-len(dma_ports):]):
i += len(cpus)
d.dma_sequencer = self.sequencers[i]
self.num_of_sequencers = len(self.sequencers)
# Create the network and connect the controllers.
# NOTE: This is quite different if using Garnet!
self.network.connectControllers(self.controllers)
self.network.setup_buffers()
# Set up a proxy port for the system_port. Used for load binaries and
# other functional-only things.
self.sys_port_proxy = RubyPortProxy()
system.system_port = self.sys_port_proxy.in_ports
self.sys_port_proxy.pio_request_port = iobus.cpu_side_ports
# Connect the cpu's cache, interrupt, and TLB ports to Ruby
for i,cpu in enumerate(cpus):
cpu.icache_port = self.sequencers[i].in_ports
cpu.dcache_port = self.sequencers[i].in_ports
isa = buildEnv['TARGET_ISA']
if isa == 'x86':
cpu.interrupts[0].pio = self.sequencers[i].interrupt_out_port
cpu.interrupts[0].int_requestor = self.sequencers[i].in_ports
cpu.interrupts[0].int_responder = \
self.sequencers[i].interrupt_out_port
if isa == 'x86' or isa == 'arm':
cpu.mmu.connectWalkerPorts(
self.sequencers[i].in_ports, self.sequencers[i].in_ports)
class L1Cache(L1Cache_Controller):
_version = 0
@classmethod
def versionCount(cls):
cls._version += 1 # Use count for this particular type
return cls._version - 1
def __init__(self, system, ruby_system, cpu):
"""CPUs are needed to grab the clock domain and system is needed for
the cache block size.
"""
super(L1Cache, self).__init__()
self.version = self.versionCount()
# This is the cache memory object that stores the cache data and tags
self.cacheMemory = RubyCache(size = '16kB',
assoc = 8,
start_index_bit = self.getBlockSizeBits(system))
self.clk_domain = cpu.clk_domain
self.send_evictions = self.sendEvicts(cpu)
self.ruby_system = ruby_system
self.connectQueues(ruby_system)
def getBlockSizeBits(self, system):
bits = int(math.log(system.cache_line_size, 2))
if 2**bits != system.cache_line_size.value:
panic("Cache line size not a power of 2!")
return bits
def sendEvicts(self, cpu):
"""True if the CPU model or ISA requires sending evictions from caches
to the CPU. Two scenarios warrant forwarding evictions to the CPU:
1. The O3 model must keep the LSQ coherent with the caches
2. The x86 mwait instruction is built on top of coherence
3. The local exclusive monitor in ARM systems
"""
if type(cpu) is DerivO3CPU or \
buildEnv['TARGET_ISA'] in ('x86', 'arm'):
return True
return False
def connectQueues(self, ruby_system):
"""Connect all of the queues for this controller.
"""
self.mandatoryQueue = MessageBuffer()
self.requestFromCache = MessageBuffer(ordered = True)
self.requestFromCache.out_port = ruby_system.network.in_port
self.responseFromCache = MessageBuffer(ordered = True)
self.responseFromCache.out_port = ruby_system.network.in_port
self.forwardToCache = MessageBuffer(ordered = True)
self.forwardToCache.in_port = ruby_system.network.out_port
self.responseToCache = MessageBuffer(ordered = True)
self.responseToCache.in_port = ruby_system.network.out_port
class DirController(Directory_Controller):
_version = 0
@classmethod
def versionCount(cls):
cls._version += 1 # Use count for this particular type
return cls._version - 1
def __init__(self, ruby_system, ranges, mem_ctrls):
"""ranges are the memory ranges assigned to this controller.
"""
if len(mem_ctrls) > 1:
panic("This cache system can only be connected to one mem ctrl")
super(DirController, self).__init__()
self.version = self.versionCount()
self.addr_ranges = ranges
self.ruby_system = ruby_system
self.directory = RubyDirectoryMemory()
# Connect this directory to the memory side.
self.memory_out_port = mem_ctrls[0].port
self.connectQueues(ruby_system)
def connectQueues(self, ruby_system):
self.requestToDir = MessageBuffer(ordered = True)
self.requestToDir.in_port = ruby_system.network.out_port
self.dmaRequestToDir = MessageBuffer(ordered = True)
self.dmaRequestToDir.in_port = ruby_system.network.out_port
self.responseFromDir = MessageBuffer()
self.responseFromDir.out_port = ruby_system.network.in_port
self.dmaResponseFromDir = MessageBuffer(ordered = True)
self.dmaResponseFromDir.out_port = ruby_system.network.in_port
self.forwardFromDir = MessageBuffer()
self.forwardFromDir.out_port = ruby_system.network.in_port
self.requestToMemory = MessageBuffer()
self.responseFromMemory = MessageBuffer()
class DMAController(DMA_Controller):
_version = 0
@classmethod
def versionCount(cls):
cls._version += 1 # Use count for this particular type
return cls._version - 1
def __init__(self, ruby_system):
super(DMAController, self).__init__()
self.version = self.versionCount()
self.ruby_system = ruby_system
self.connectQueues(ruby_system)
def connectQueues(self, ruby_system):
self.mandatoryQueue = MessageBuffer()
self.requestToDir = MessageBuffer()
self.requestToDir.out_port = ruby_system.network.in_port
self.responseFromDir = MessageBuffer(ordered = True)
self.responseFromDir.in_port = ruby_system.network.out_port
class MyNetwork(SimpleNetwork):
"""A simple point-to-point network. This doesn't not use garnet.
"""
def __init__(self, ruby_system):
super(MyNetwork, self).__init__()
self.netifs = []
self.ruby_system = ruby_system
def connectControllers(self, controllers):
"""Connect all of the controllers to routers and connec the routers
together in a point-to-point network.
"""
# Create one router/switch per controller in the system
self.routers = [Switch(router_id = i) for i in range(len(controllers))]
# Make a link from each controller to the router. The link goes
# externally to the network.
self.ext_links = [SimpleExtLink(link_id=i, ext_node=c,
int_node=self.routers[i])
for i, c in enumerate(controllers)]
# Make an "internal" link (internal to the network) between every pair
# of routers.
link_count = 0
self.int_links = []
for ri in self.routers:
for rj in self.routers:
if ri == rj: continue # Don't connect a router to itself!
link_count += 1
self.int_links.append(SimpleIntLink(link_id = link_count,
src_node = ri,
dst_node = rj))