configs/common/FileSystemConfig.py - public/gem5 - Git at Google

 # Copyright (c) 2015 Advanced Micro Devices, Inc.
 # 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: David Hashe

 from __future__ import print_function

 import m5
 from m5.objects import *
 from m5.util.convert import *

 import operator, os, platform, getpass
 from os import mkdir, makedirs, getpid, listdir, stat, access
 from pwd import getpwuid
 from os.path import join as joinpath
 from os.path import isdir
 from shutil import rmtree, copyfile

 def hex_mask(terms):
     dec_mask = reduce(operator.or_, [2**i for i in terms], 0)
     return "%08x" % dec_mask

 def file_append(path, contents):
     with open(joinpath(*path), 'a') as f:
         f.write(str(contents))

 def replace_tree(path):
     if isdir(path):
         rmtree(path)
     mkdir(path)

 def config_filesystem(system, options = None):
     """ This function parses the system object to create the pseudo file system
     @param system: The system to create the config for
     @param options: An optional argument which contains an Options.py options
            object. This is useful if when use se.py and will set the L2 cache
            size and the clock in /proc/cpuinfo if provided.

     First, this function walks the system object to find all CPUs.
     Then, this function creates the following files with the CPU information
       - /proc/cpuinfo which contains the clock  and the L2 size
         (assumes all L2s private and the same size)
       - /proc/stat simply lists all CPUs
       - /sys/devices/system/cpu/online and /sys/devices/system/cpu/possible
         These files list all of the CPUs in this system.
       - /tmp

     These files are created in the `fs` directory in the outdir path.
     """
     fsdir = joinpath(m5.options.outdir, 'fs')
     replace_tree(fsdir)

     # Set up /proc
     procdir = joinpath(fsdir, 'proc')
     mkdir(procdir)

     try:
         cpus = \
             [obj for obj in system.descendants() if isinstance(obj, BaseCPU)]
     except NameError:
         # BaseCPU is not defined for the NULL ISA
         cpus = []

     cpu_clock = 0
     if hasattr(options, 'cpu_clock'):
         cpu_clock = toFrequency(options.cpu_clock) / mega

     l2_size = 0
     if hasattr(options, 'l2_size'):
         l2_size = toMemorySize(options.l2_size) / kibi

     for i,cpu in enumerate(cpus):
         one_cpu = 'processor       : {proc}\n'                    + \
                   'vendor_id       : Generic\n'                   + \
                   'cpu family      : 0\n'                         + \
                   'model           : 0\n'                         + \
                   'model name      : Generic\n'                   + \
                   'stepping        : 0\n'                         + \
                   'cpu MHz         : {clock:0.3f}\n'              + \
                   'cache size:     : {l2_size}K\n'                + \
                   'physical id     : 0\n'                         + \
                   'siblings        : {num_cpus}\n'                + \
                   'core id         : {proc}\n'                    + \
                   'cpu cores       : {num_cpus}\n'                + \
                   'fpu             : yes\n'                       + \
                   'fpu exception   : yes\n'                       + \
                   'cpuid level     : 1\n'                         + \
                   'wp              : yes\n'                       + \
                   'flags           : fpu\n'                       + \
                   'cache alignment : {cacheline_size}\n'          + \
                   '\n'
         one_cpu = one_cpu.format(proc = i, num_cpus = len(cpus),
                        # Note: it would be nice to use cpu.clock, but it hasn't
                        # been finalized yet since m5.instantiate() isn't done.
                        clock = cpu_clock,
                        # Note: this assumes the L2 is private to each core
                        l2_size = l2_size,
                        cacheline_size=system.cache_line_size.getValue())
         file_append((procdir, 'cpuinfo'), one_cpu)

     file_append((procdir, 'stat'), 'cpu 0 0 0 0 0 0 0\n')
     for i in xrange(len(cpus)):
         file_append((procdir, 'stat'), 'cpu%d 0 0 0 0 0 0 0\n' % i)

     # Set up /sys
     sysdir = joinpath(fsdir, 'sys')
     mkdir(sysdir)

     # Set up /sys/devices/system/cpu
     cpudir = joinpath(sysdir, 'devices', 'system', 'cpu')
     makedirs(cpudir)

     file_append((cpudir, 'online'), '0-%d' % (len(cpus) - 1))
     file_append((cpudir, 'possible'), '0-%d' % (len(cpus) - 1))

     # Set up /tmp
     tmpdir = joinpath(fsdir, 'tmp')
     replace_tree(tmpdir)

     system.redirect_paths = _redirect_paths(options)

 def register_node(cpu_list, mem, node_number):
     nodebasedir = joinpath(m5.options.outdir, 'fs', 'sys', 'devices',
                            'system', 'node')

     nodedir = joinpath(nodebasedir,'node%d' % node_number)
     makedirs(nodedir)

     file_append((nodedir, 'cpumap'), hex_mask(cpu_list))
     file_append((nodedir, 'meminfo'),
                 'Node %d MemTotal: %dkB' % (node_number,
                 toMemorySize(str(mem))/kibi))

 def register_cpu(physical_package_id, core_siblings,
                  core_id, thread_siblings):
     cpudir = joinpath(m5.options.outdir, 'fs',  'sys', 'devices', 'system',
                       'cpu', 'cpu%d' % core_id)

     if not isdir(joinpath(cpudir, 'topology')):
         makedirs(joinpath(cpudir, 'topology'))
     if not isdir(joinpath(cpudir, 'cache')):
         makedirs(joinpath(cpudir, 'cache'))

     file_append((cpudir, 'online'), '1')
     file_append((cpudir, 'topology', 'physical_package_id'),
                 physical_package_id)
     file_append((cpudir, 'topology', 'core_siblings'),
                 hex_mask(core_siblings))
     file_append((cpudir, 'topology', 'core_id'), core_id)
     file_append((cpudir, 'topology', 'thread_siblings'),
                 hex_mask(thread_siblings))

 def register_cache(level, idu_type, size, line_size, assoc, cpus):
     fsdir = joinpath(m5.options.outdir, 'fs')
     for i in cpus:
         cachedir = joinpath(fsdir, 'sys', 'devices', 'system', 'cpu',
                             'cpu%d' % i, 'cache')

         j = 0
         while isdir(joinpath(cachedir, 'index%d' % j)):
             j += 1
         indexdir = joinpath(cachedir, 'index%d' % j)
         makedirs(indexdir)

         file_append((indexdir, 'level'), level)
         file_append((indexdir, 'type'), idu_type)
         file_append((indexdir, 'size'), "%dK" % (toMemorySize(size)/kibi))
         file_append((indexdir, 'coherency_line_size'), line_size)

         # Since cache size = number of indices * associativity * block size
         num_sets = toMemorySize(size) / int(assoc) * int(line_size)

         file_append((indexdir, 'number_of_sets'), num_sets)
         file_append((indexdir, 'physical_line_partition'), '1')
         file_append((indexdir, 'shared_cpu_map'), hex_mask(cpus))

 def _redirect_paths(options):
     # Redirect filesystem syscalls from src to the first matching dests
     redirect_paths = [RedirectPath(app_path = "/proc",
                           host_paths = ["%s/fs/proc" % m5.options.outdir]),
                       RedirectPath(app_path = "/sys",
                           host_paths = ["%s/fs/sys"  % m5.options.outdir]),
                       RedirectPath(app_path = "/tmp",
                           host_paths = ["%s/fs/tmp"  % m5.options.outdir])]

     chroot = getattr(options, 'chroot', None)
     if chroot:
         redirect_paths.append(
             RedirectPath(
                 app_path = "/",
                 host_paths = ["%s" % os.path.expanduser(chroot)]))

     return redirect_paths
	# Copyright (c) 2015 Advanced Micro Devices, Inc.
	# 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: David Hashe

	from __future__ import print_function

	import m5
	from m5.objects import *
	from m5.util.convert import *

	import operator, os, platform, getpass
	from os import mkdir, makedirs, getpid, listdir, stat, access
	from pwd import getpwuid
	from os.path import join as joinpath
	from os.path import isdir
	from shutil import rmtree, copyfile

	def hex_mask(terms):
	dec_mask = reduce(operator.or_, [2**i for i in terms], 0)
	return "%08x" % dec_mask

	def file_append(path, contents):
	with open(joinpath(*path), 'a') as f:
	f.write(str(contents))

	def replace_tree(path):
	if isdir(path):
	rmtree(path)
	mkdir(path)

	def config_filesystem(system, options = None):
	""" This function parses the system object to create the pseudo file system
	@param system: The system to create the config for
	@param options: An optional argument which contains an Options.py options
	object. This is useful if when use se.py and will set the L2 cache
	size and the clock in /proc/cpuinfo if provided.

	First, this function walks the system object to find all CPUs.
	Then, this function creates the following files with the CPU information
	- /proc/cpuinfo which contains the clock and the L2 size
	(assumes all L2s private and the same size)
	- /proc/stat simply lists all CPUs
	- /sys/devices/system/cpu/online and /sys/devices/system/cpu/possible
	These files list all of the CPUs in this system.
	- /tmp

	These files are created in the `fs` directory in the outdir path.
	"""
	fsdir = joinpath(m5.options.outdir, 'fs')
	replace_tree(fsdir)

	# Set up /proc
	procdir = joinpath(fsdir, 'proc')
	mkdir(procdir)

	try:
	cpus = \
	[obj for obj in system.descendants() if isinstance(obj, BaseCPU)]
	except NameError:
	# BaseCPU is not defined for the NULL ISA
	cpus = []

	cpu_clock = 0
	if hasattr(options, 'cpu_clock'):
	cpu_clock = toFrequency(options.cpu_clock) / mega

	l2_size = 0
	if hasattr(options, 'l2_size'):
	l2_size = toMemorySize(options.l2_size) / kibi

	for i,cpu in enumerate(cpus):
	one_cpu = 'processor : {proc}\n' + \
	'vendor_id : Generic\n' + \
	'cpu family : 0\n' + \
	'model : 0\n' + \
	'model name : Generic\n' + \
	'stepping : 0\n' + \
	'cpu MHz : {clock:0.3f}\n' + \
	'cache size: : {l2_size}K\n' + \
	'physical id : 0\n' + \
	'siblings : {num_cpus}\n' + \
	'core id : {proc}\n' + \
	'cpu cores : {num_cpus}\n' + \
	'fpu : yes\n' + \
	'fpu exception : yes\n' + \
	'cpuid level : 1\n' + \
	'wp : yes\n' + \
	'flags : fpu\n' + \
	'cache alignment : {cacheline_size}\n' + \
	'\n'
	one_cpu = one_cpu.format(proc = i, num_cpus = len(cpus),
	# Note: it would be nice to use cpu.clock, but it hasn't
	# been finalized yet since m5.instantiate() isn't done.
	clock = cpu_clock,
	# Note: this assumes the L2 is private to each core
	l2_size = l2_size,
	cacheline_size=system.cache_line_size.getValue())
	file_append((procdir, 'cpuinfo'), one_cpu)

	file_append((procdir, 'stat'), 'cpu 0 0 0 0 0 0 0\n')
	for i in xrange(len(cpus)):
	file_append((procdir, 'stat'), 'cpu%d 0 0 0 0 0 0 0\n' % i)

	# Set up /sys
	sysdir = joinpath(fsdir, 'sys')
	mkdir(sysdir)

	# Set up /sys/devices/system/cpu
	cpudir = joinpath(sysdir, 'devices', 'system', 'cpu')
	makedirs(cpudir)

	file_append((cpudir, 'online'), '0-%d' % (len(cpus) - 1))
	file_append((cpudir, 'possible'), '0-%d' % (len(cpus) - 1))

	# Set up /tmp
	tmpdir = joinpath(fsdir, 'tmp')
	replace_tree(tmpdir)

	system.redirect_paths = _redirect_paths(options)

	def register_node(cpu_list, mem, node_number):
	nodebasedir = joinpath(m5.options.outdir, 'fs', 'sys', 'devices',
	'system', 'node')

	nodedir = joinpath(nodebasedir,'node%d' % node_number)
	makedirs(nodedir)

	file_append((nodedir, 'cpumap'), hex_mask(cpu_list))
	file_append((nodedir, 'meminfo'),
	'Node %d MemTotal: %dkB' % (node_number,
	toMemorySize(str(mem))/kibi))

	def register_cpu(physical_package_id, core_siblings,
	core_id, thread_siblings):
	cpudir = joinpath(m5.options.outdir, 'fs', 'sys', 'devices', 'system',
	'cpu', 'cpu%d' % core_id)

	if not isdir(joinpath(cpudir, 'topology')):
	makedirs(joinpath(cpudir, 'topology'))
	if not isdir(joinpath(cpudir, 'cache')):
	makedirs(joinpath(cpudir, 'cache'))

	file_append((cpudir, 'online'), '1')
	file_append((cpudir, 'topology', 'physical_package_id'),
	physical_package_id)
	file_append((cpudir, 'topology', 'core_siblings'),
	hex_mask(core_siblings))
	file_append((cpudir, 'topology', 'core_id'), core_id)
	file_append((cpudir, 'topology', 'thread_siblings'),
	hex_mask(thread_siblings))

	def register_cache(level, idu_type, size, line_size, assoc, cpus):
	fsdir = joinpath(m5.options.outdir, 'fs')
	for i in cpus:
	cachedir = joinpath(fsdir, 'sys', 'devices', 'system', 'cpu',
	'cpu%d' % i, 'cache')

	j = 0
	while isdir(joinpath(cachedir, 'index%d' % j)):
	j += 1
	indexdir = joinpath(cachedir, 'index%d' % j)
	makedirs(indexdir)

	file_append((indexdir, 'level'), level)
	file_append((indexdir, 'type'), idu_type)
	file_append((indexdir, 'size'), "%dK" % (toMemorySize(size)/kibi))
	file_append((indexdir, 'coherency_line_size'), line_size)

	# Since cache size = number of indices * associativity * block size
	num_sets = toMemorySize(size) / int(assoc) * int(line_size)

	file_append((indexdir, 'number_of_sets'), num_sets)
	file_append((indexdir, 'physical_line_partition'), '1')
	file_append((indexdir, 'shared_cpu_map'), hex_mask(cpus))

	def _redirect_paths(options):
	# Redirect filesystem syscalls from src to the first matching dests
	redirect_paths = [RedirectPath(app_path = "/proc",
	host_paths = ["%s/fs/proc" % m5.options.outdir]),
	RedirectPath(app_path = "/sys",
	host_paths = ["%s/fs/sys" % m5.options.outdir]),
	RedirectPath(app_path = "/tmp",
	host_paths = ["%s/fs/tmp" % m5.options.outdir])]

	chroot = getattr(options, 'chroot', None)
	if chroot:
	redirect_paths.append(
	RedirectPath(
	app_path = "/",
	host_paths = ["%s" % os.path.expanduser(chroot)]))

	return redirect_paths