gem5/tests/configs/switcheroo.py

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# Authors: Andreas Sandberg

import m5
import _m5
from m5.objects import *
m5.util.addToPath('../configs/')
from common.Caches import *

class Sequential:
    """Sequential CPU switcher.

    The sequential CPU switches between all CPUs in a system in
    order. The CPUs in the system must have been prepared for
    switching, which in practice means that only one CPU is switched
    in. base_config.BaseFSSwitcheroo can be used to create such a
    system.
    """
    def __init__(self, cpus):
        self.first_cpu = None
        for (cpuno, cpu) in enumerate(cpus):
            if not cpu.switched_out:
                if self.first_cpu != None:
                    fatal("More than one CPU is switched in");
                self.first_cpu = cpuno

        if self.first_cpu == None:
            fatal("The system contains no switched in CPUs")

        self.cur_cpu = self.first_cpu
        self.cpus = cpus

    def next(self):
        self.cur_cpu = (self.cur_cpu + 1) % len(self.cpus)
        return self.cpus[self.cur_cpu]

    def first(self):
        return self.cpus[self.first_cpu]

def run_test(root, switcher=None, freq=1000, verbose=False):
    """Test runner for CPU switcheroo tests.

    The switcheroo test runner is used to switch CPUs in a system that
    has been prepared for CPU switching. Such systems should have
    multiple CPUs when they are instantiated, but only one should be
    switched in. Such configurations can be created using the
    base_config.BaseFSSwitcheroo class.

    A CPU switcher object is used to control switching. The default
    switcher sequentially switches between all CPUs in a system,
    starting with the CPU that is currently switched in.

    Unlike most other test runners, this one automatically configures
    the memory mode of the system based on the first CPU the switcher
    reports.

    Keyword Arguments:
      switcher -- CPU switcher implementation. See Sequential for
                  an example implementation.
      period -- Switching frequency in Hz.
      verbose -- Enable output at each switch (suppressed by default).
    """

    if switcher == None:
        switcher = Sequential(root.system.cpu)

    current_cpu = switcher.first()
    system = root.system
    system.mem_mode = type(current_cpu).memory_mode()

    # Suppress "Entering event queue" messages since we get tons of them.
    # Worse yet, they include the timestamp, which makes them highly
    # variable and unsuitable for comparing as test outputs.
    if not verbose:
        _m5.core.Logger.setLevel(_m5.core.Logger.WARN)

    # instantiate configuration
    m5.instantiate()

    # Determine the switching period, this has to be done after
    # instantiating the system since the time base must be fixed.
    period = m5.ticks.fromSeconds(1.0 / freq)
    while True:
        exit_event = m5.simulate(period)
        exit_cause = exit_event.getCause()

        if exit_cause == "simulate() limit reached":
            next_cpu = switcher.next()

            if verbose:
                print "Switching CPUs..."
                print "Next CPU: %s" % type(next_cpu)
            m5.drain()
            if current_cpu != next_cpu:
                m5.switchCpus(system, [ (current_cpu, next_cpu) ],
                              verbose=verbose)
            else:
                print "Source CPU and destination CPU are the same, skipping..."
            current_cpu = next_cpu
        elif exit_cause == "target called exit()" or \
                exit_cause == "m5_exit instruction encountered":

            sys.exit(0)
        else:
            print "Test failed: Unknown exit cause: %s" % exit_cause
            sys.exit(1)