Exemplos de parse_apic em Python

Exemplo n.º 1

Arquivo: testacpi.py Projeto: kirkboy/bits

def test_mat():
    cpupaths = acpi.get_cpupaths()
    procid_apicid, uid_x2apicid = acpi.parse_apic()
    for cpupath in cpupaths:
        # Find the ProcId defined by the processor object
        processor = acpi.evaluate(cpupath)
        # Find the UID defined by the processor object's _UID method
        uid = acpi.evaluate(cpupath + "._UID")
        mat_buffer = acpi.evaluate(cpupath + "._MAT")
        if mat_buffer is None:
            continue
        # Process each _MAT subtable
        mat = acpi._MAT(mat_buffer)
        for index, subtable  in enumerate(mat.subtables):
            if subtable.type == acpi.MADT_TYPE_LOCAL_APIC:
                if subtable.enabled:
                    testsuite.test("{} Processor declaration ProcId = _MAT ProcId".format(cpupath), processor.ProcId == subtable.proc_id)
                    testsuite.print_detail("{} ProcId ({:#02x}) != _MAT ProcId ({:#02x})".format(cpupath, processor.ProcId, subtable.proc_id))
                    testsuite.print_detail("Processor Declaration: {}".format(processor))
                    testsuite.print_detail("_MAT entry[{}]: {}".format(index, subtable))
                    if testsuite.test("{} with local APIC in _MAT has local APIC in MADT".format(cpupath), processor.ProcId in procid_apicid):
                        testsuite.test("{} ApicId derived using Processor declaration ProcId = _MAT ApicId".format(cpupath), procid_apicid[processor.ProcId] == subtable.apic_id)
                        testsuite.print_detail("{} ApicId derived from MADT ({:#02x}) != _MAT ApicId ({:#02x})".format(cpupath, procid_apicid[processor.ProcId], subtable.apic_id))
                        testsuite.print_detail("Processor Declaration: {}".format(processor))
                        testsuite.print_detail("_MAT entry[{}]: {}".format(index, subtable))
            if subtable.type == acpi.MADT_TYPE_LOCAL_X2APIC:
                if subtable.enabled:
                    if testsuite.test("{} with x2Apic in _MAT has _UID".format(cpupath), uid is not None):
                        testsuite.test("{}._UID = _MAT UID".format(cpupath), uid == subtable.uid)
                        testsuite.print_detail("{}._UID ({:#x}) != _MAT UID ({:#x})".format(cpupath, uid, subtable.uid))
                        testsuite.print_detail("_MAT entry[{}]: {}".format(index, subtable))
                    if testsuite.test("{} with _MAT x2Apic has x2Apic in MADT".format(cpupath), subtable.uid in uid_x2apicid):
                        testsuite.test("{} x2ApicId derived from MADT using UID = _MAT x2ApicId".format(cpupath), uid_x2apicid[subtable.uid] == subtable.x2apicid)
                        testsuite.print_detail("{} x2ApicId derived from MADT ({:#02x}) != _MAT x2ApicId ({:#02x})".format(cpupath, uid_x2apicid[subtable.uid], subtable.x2apicid))
                        testsuite.print_detail("_MAT entry[{}]: {}".format(index, x2Apic))

Exemplo n.º 2

Arquivo: testacpi.py Projeto: sykeben/BITS-PyOS

def test_mat():
    cpupaths = acpi.get_cpupaths()
    apic = acpi.parse_apic()
    procid_apicid = apic.procid_apicid
    uid_x2apicid = apic.uid_x2apicid
    for cpupath in cpupaths:
        # Find the ProcId defined by the processor object
        processor = acpi.evaluate(cpupath)
        # Find the UID defined by the processor object's _UID method
        uid = acpi.evaluate(cpupath + "._UID")
        mat_buffer = acpi.evaluate(cpupath + "._MAT")
        if mat_buffer is None:
            continue
        # Process each _MAT subtable
        mat = acpi._MAT(mat_buffer)
        for index, subtable in enumerate(mat):
            if subtable.subtype == acpi.MADT_TYPE_LOCAL_APIC:
                if subtable.flags.bits.enabled:
                    testsuite.test("{} Processor declaration ProcId = _MAT ProcId".format(cpupath), processor.ProcId == subtable.proc_id)
                    testsuite.print_detail("{} ProcId ({:#02x}) != _MAT ProcId ({:#02x})".format(cpupath, processor.ProcId, subtable.proc_id))
                    testsuite.print_detail("Processor Declaration: {}".format(processor))
                    testsuite.print_detail("_MAT entry[{}]: {}".format(index, subtable))
                    if testsuite.test("{} with local APIC in _MAT has local APIC in MADT".format(cpupath), processor.ProcId in procid_apicid):
                        testsuite.test("{} ApicId derived using Processor declaration ProcId = _MAT ApicId".format(cpupath), procid_apicid[processor.ProcId] == subtable.apic_id)
                        testsuite.print_detail("{} ApicId derived from MADT ({:#02x}) != _MAT ApicId ({:#02x})".format(cpupath, procid_apicid[processor.ProcId], subtable.apic_id))
                        testsuite.print_detail("Processor Declaration: {}".format(processor))
                        testsuite.print_detail("_MAT entry[{}]: {}".format(index, subtable))
            if subtable.subtype == acpi.MADT_TYPE_LOCAL_X2APIC:
                if subtable.flags.bits.enabled:
                    if testsuite.test("{} with x2Apic in _MAT has _UID".format(cpupath), uid is not None):
                        testsuite.test("{}._UID = _MAT UID".format(cpupath), uid == subtable.uid)
                        testsuite.print_detail("{}._UID ({:#x}) != _MAT UID ({:#x})".format(cpupath, uid, subtable.uid))
                        testsuite.print_detail("_MAT entry[{}]: {}".format(index, subtable))
                    if testsuite.test("{} with _MAT x2Apic has x2Apic in MADT".format(cpupath), subtable.uid in uid_x2apicid):
                        testsuite.test("{} x2ApicId derived from MADT using UID = _MAT x2ApicId".format(cpupath), uid_x2apicid[subtable.uid] == subtable.x2apicid)
                        testsuite.print_detail("{} x2ApicId derived from MADT ({:#02x}) != _MAT x2ApicId ({:#02x})".format(cpupath, uid_x2apicid[subtable.uid], subtable.x2apicid))
                        testsuite.print_detail("_MAT entry[{}]: {}".format(index, subtable))

Exemplo n.º 3

Arquivo: testacpi.py Projeto: kirkboy/bits

def test_pstates():
    """Execute and verify frequency for each Pstate in the _PSS"""
    old_mwait = {}
    try:
        IA32_PERF_CTL = 0x199

        # Force use of MWAIT C3
        hint = 0x20
        cpus = bits.cpus()
        for apicid in cpus:
            old_mwait[apicid] = bits.get_mwait(apicid)
            bits.set_mwait(apicid, True, hint)

        cpupath_procid = acpi.find_procid()
        cpupath_uid = acpi.find_uid()
        procid_apicid, uid_x2apicid = acpi.parse_apic()
        def cpupath_apicid(cpupath):
            if procid_apicid is not None:
                procid = cpupath_procid.get(cpupath, None)
                if procid is not None:
                    apicid = procid_apicid.get(procid, None)
                    if apicid is not None:
                        return apicid
            if uid_x2apicid is not None:
                uid = cpupath_uid.get(cpupath, None)
                if uid is not None:
                    apicid = uid_x2apicid.get(uid, None)
                    if apicid is not None:
                        return apicid
            return bits.cpus()[0]

        bclk = testutil.adjust_to_nearest(bits.bclk(), 100.0/12) * 1000000

        uniques = acpi.parse_cpu_method("_PSS")
        for pss, cpupaths in uniques.iteritems():
            if not testsuite.test("_PSS must exist", pss is not None):
                testsuite.print_detail(acpi.factor_commonprefix(cpupaths))
                testsuite.print_detail('No _PSS exists')
                continue

            print "Test duration is ~{} seconds...".format(len(pss.pstates) + 2)

            for n, pstate in enumerate(pss.pstates):
                for cpupath in cpupaths:
                    apicid = cpupath_apicid(cpupath)
                    if apicid is None:
                        print 'Failed to find apicid for cpupath {}'.format(cpupath)
                        continue
                    bits.wrmsr(apicid, IA32_PERF_CTL, pstate.control)

                # Detecting Turbo frequency requires at least 2 pstates
                # since turbo frequency = max non-turbo frequency + 1
                turbo = False
                if len(pss.pstates) >= 2:
                    turbo = (n == 0 and pstate.core_frequency == (pss.pstates[1].core_frequency + 1))
                    if turbo:
                        # Needs to busywait, not sleep
                        start = time.time()
                        while (time.time() - start < 2):
                            pass

                # Abort the test if no cpu frequency is not available
                if bits.cpu_frequency() is None:
                    continue
                aperf = bits.cpu_frequency()[1]

                aperf = testutil.adjust_to_nearest(aperf, bclk/2)
                aperf = int(aperf / 1000000)

                if turbo:
                    testsuite.test("P{}: Turbo measured frequency {} >= expected {} MHz".format(n, aperf, pstate.core_frequency), aperf >= pstate.core_frequency)
                else:
                    testsuite.test("P{}: measured frequency {} MHz == expected {} MHz".format(n, aperf, pstate.core_frequency), aperf == pstate.core_frequency)
    finally:
        for apicid, old_mwait_values in old_mwait.iteritems():
            bits.set_mwait(apicid, *old_mwait_values)

Exemplo n.º 4

Arquivo: testacpi.py Projeto: zheharry/bits

def test_apic():
    data = acpi.get_table("APIC")
    if data is None:
        return
    test_table_checksum(data)
    apic = acpi.parse_apic()

Exemplo n.º 5

Arquivo: testacpi.py Projeto: sykeben/BITS-PyOS

def test_apic():
    data = acpi.get_table("APIC")
    if data is None:
        return
    test_table_checksum(data)
    apic = acpi.parse_apic()

Exemplo n.º 6

Arquivo: testacpi.py Projeto: sykeben/BITS-PyOS

def test_pstates():
    """Execute and verify frequency for each Pstate in the _PSS"""
    IA32_PERF_CTL = 0x199
    with bits.mwait.use_hint(), bits.preserve_msr(IA32_PERF_CTL):
        cpupath_procid = acpi.find_procid()
        cpupath_uid = acpi.find_uid()
        apic = acpi.parse_apic()
        procid_apicid = apic.procid_apicid
        uid_x2apicid = apic.uid_x2apicid
        def cpupath_apicid(cpupath):
            if procid_apicid is not None:
                procid = cpupath_procid.get(cpupath, None)
                if procid is not None:
                    apicid = procid_apicid.get(procid, None)
                    if apicid is not None:
                        return apicid
            if uid_x2apicid is not None:
                uid = cpupath_uid.get(cpupath, None)
                if uid is not None:
                    apicid = uid_x2apicid.get(uid, None)
                    if apicid is not None:
                        return apicid
            return bits.cpus()[0]

        bclk = testutil.adjust_to_nearest(bits.bclk(), 100.0/12) * 1000000

        uniques = acpi.parse_cpu_method("_PSS")
        for pss, cpupaths in uniques.iteritems():
            if not testsuite.test("_PSS must exist", pss is not None):
                testsuite.print_detail(acpi.factor_commonprefix(cpupaths))
                testsuite.print_detail('No _PSS exists')
                continue

            for n, pstate in enumerate(pss.pstates):
                for cpupath in cpupaths:
                    apicid = cpupath_apicid(cpupath)
                    if apicid is None:
                        print 'Failed to find apicid for cpupath {}'.format(cpupath)
                        continue
                    bits.wrmsr(apicid, IA32_PERF_CTL, pstate.control)

                # Detecting Turbo frequency requires at least 2 pstates
                # since turbo frequency = max non-turbo frequency + 1
                turbo = False
                if len(pss.pstates) >= 2:
                    turbo = (n == 0 and pstate.core_frequency == (pss.pstates[1].core_frequency + 1))
                    if turbo:
                        # Needs to busywait, not sleep
                        start = time.time()
                        while (time.time() - start < 2):
                            pass

                for duration in (0.1, 1.0):
                    frequency_data = bits.cpu_frequency(duration)
                    # Abort the test if no cpu frequency is not available
                    if frequency_data is None:
                        continue
                    aperf = frequency_data[1]
                    aperf = testutil.adjust_to_nearest(aperf, bclk/2)
                    aperf = int(aperf / 1000000)
                    if turbo:
                        if aperf >= pstate.core_frequency:
                            break
                    else:
                        if aperf == pstate.core_frequency:
                            break

                if turbo:
                    testsuite.test("P{}: Turbo measured frequency {} >= expected {} MHz".format(n, aperf, pstate.core_frequency), aperf >= pstate.core_frequency)
                else:
                    testsuite.test("P{}: measured frequency {} MHz == expected {} MHz".format(n, aperf, pstate.core_frequency), aperf == pstate.core_frequency)