tools: config-create: refuse to generate config if jailhouse is enabled

[jailhouse.git] / tools / jailhouse-config-create

#!/usr/bin/env python
#
# Jailhouse, a Linux-based partitioning hypervisor
#
# Copyright (c) Siemens AG, 2014
#
# This work is licensed under the terms of the GNU GPL, version 2.  See
# the COPYING file in the top-level directory.
#
# This script should help to create a basic jailhouse configuration file.
# It needs to be executed on the target machine, where it will gather
# information about the system. For more advanced scenarios you will have
# to change the generated C-code.

from __future__ import print_function
import sys
import os
import re
import argparse
import struct
from mako.template import Template

# pretend to be part of the jailhouse tool
sys.argv[0] = sys.argv[0].replace('-', ' ')

parser = argparse.ArgumentParser()
parser.add_argument('-g', '--generate-collector',
                    help='generate a script to collect input files on '
                         'a remote machine',
                    action='store_true')
parser.add_argument('-r', '--root',
                    help='gather information in ROOT/, the default is "/" '
                         'which means creating a config for localhost',
                    default='/',
                    action='store',
                    type=str)

memargs = [['--mem-inmates', '2M', 'inmate'],
           ['--mem-hv', '64M', 'hypervisor']]

for entry in memargs:
    parser.add_argument(entry[0],
                        help='the amount of ' + entry[2] +
                             ' memory, default is "' + entry[1] +
                             '", format "xxx[K|M|G]"',
                        default=entry[1],
                        action='store',
                        type=str)

parser.add_argument('file', metavar='FILE',
                    help='name of file to write out',
                    type=str)

options = parser.parse_args()

inputs = {'files': set(), 'dirs': set()}


class PCIDevice:
    def __init__(self, type, domain, bus, dev, fn):
        self.type = type
        self.domain = domain
        self.bus = bus
        self.dev = dev
        self.fn = fn

    def __str__(self):
        return 'PCIDevice: %02x:%02x.%x' % (self.bus, self.dev, self.fn)

    def devfn(self):
        return self.dev << 3 | self.fn

    @staticmethod
    def parse_pcidevice_sysfsdir(basedir, dir):
        dclass = input_readline(basedir + '/' + dir + '/class', False, False)
        if re.match(r'0x0604..', dclass):
            type = 'JAILHOUSE_PCI_TYPE_BRIDGE'
        else:
            type = 'JAILHOUSE_PCI_TYPE_DEVICE'
        a = dir.split(':')
        domain = int(a[0], 16)
        bus = int(a[1], 16)
        df = a[2].split('.')
        return PCIDevice(type, domain, bus, int(df[0], 16), int(df[1], 16))


class MemRegion:
    def __init__(self, start, stop, typestr, comments=[]):
        self.start = start
        self.stop = stop
        self.typestr = typestr
        self.comments = comments

    def __str__(self):
        return 'MemRegion: %08x-%08x : %s' % \
            (self.start, self.stop, self.typestr)

    def size(self):
        # round up to full PAGE_SIZE
        return int((self.stop - self.start + 0xfff) / 0x1000) * 0x1000

    def flagstr(self, p=''):
        if (
            self.typestr == 'ACPI Tables' or
            self.typestr == 'ACPI Non-volatile Storage'
        ):
            return 'JAILHOUSE_MEM_READ'
        if (
            self.typestr == 'System RAM' or
            self.typestr == 'RAM buffer' or
            self.typestr == 'ACPI DMAR RMRR'
        ):
            s = 'JAILHOUSE_MEM_READ | JAILHOUSE_MEM_WRITE |\n'
            s += p + '\t\tJAILHOUSE_MEM_EXECUTE | JAILHOUSE_MEM_DMA'
            return s
        return 'JAILHOUSE_MEM_READ | JAILHOUSE_MEM_WRITE'

    @staticmethod
    # return the first region with the given typestr
    def find_region(regions, typestr):
        for r in regions:
            if (r.typestr == typestr):
                return r
        return None

    @staticmethod
    def parse_iomem_line(line):
        a = line.split(':', 1)
        # HPET may be part of in reserved region
        if a[0].startswith(' ') and a[1].find("HPET") < 0:
            return None
        region = a[0].split('-', 1)
        a[1] = a[1].strip()
        return MemRegion(int(region[0], 16), int(region[1], 16), a[1])


def parse_iomem():
    regions = []
    f, e = input_open('/proc/iomem', True, False, 'r')
    for line in f:
        r = MemRegion.parse_iomem_line(line)
        ## XXX what else to ignore??
        if (
            r is not None and
            r.typestr != 'Local APIC' and
            r.typestr != 'reserved'
        ):
            regions.append(r)
    f.close()

    # newer Linux kernels will report the first page as reserved
    # it is needed for CPU init so include it anyways
    if (
        regions[0].typestr == 'System RAM' and
        regions[0].start == 0x1000
    ):
        regions[0].start = 0

    return regions


def parse_pcidevices():
    devices = []
    basedir = '/sys/bus/pci/devices'
    list = input_listdir(basedir, ['*/class'])
    for dir in list:
        d = PCIDevice.parse_pcidevice_sysfsdir(basedir, dir)
        if d is not None:
            devices.append(d)
    return devices


def kmg_multiply(value, kmg):
    if (kmg == 'K' or kmg == 'k'):
        return 1024 * value
    if (kmg == 'M' or kmg == 'm'):
        return 1024**2 * value
    if (kmg == 'G' or kmg == 'g'):
        return 1024**3 * value
    return value


def kmg_multiply_str(str):
    m = re.match(r'([0-9a-fA-FxX]+)([KMG]?)', str)
    if m is not None:
        return kmg_multiply(int(m.group(1)), m.group(2))
    raise RuntimeError('kmg_multiply_str can not parse input "' + str + '"')
    return 0


def input_open(name, record, optional, *args):
    if record:
        inputs['files'].add(name)
    try:
        f = open(options.root + name, *args)
    except Exception as e:
        if optional:
            return None, e
        raise e
    return f, None


def input_readline(name, record=True, optional=False):
    f, e = input_open(name, record, optional, 'r')
    if f is None and optional:
        return ''

    line = f.readline()
    f.close()
    return line


def input_listdir(dir, wildcards):
    for w in wildcards:
        inputs['dirs'].add(dir + '/' + w)
    return os.listdir(options.root + dir)


def parse_cmdline():
    line = input_readline('/proc/cmdline')
    m = re.match(r'.*memmap=([0-9a-fA-FxX]+)([KMG]?)\$'
                 '([0-9a-fA-FxX]+)([KMG]?).*',
                 line)
    if m is not None:
        size = kmg_multiply(int(m.group(1), 0), m.group(2))
        start = kmg_multiply(int(m.group(3), 0), m.group(4))
        return [start, size]
    return None


def alloc_mem(regions, size):
    mem = [0, size]
    for r in reversed(regions):
        if (r.typestr == 'System RAM' and r.size() >= mem[1]):
            mem[0] = r.start
            r.start += mem[1]
            return mem
    raise RuntimeError('failed to allocate memory')


def count_cpus():
    list = input_listdir('/sys/devices/system/cpu', ['cpu*/uevent'])
    count = 0
    for f in list:
        if re.match(r'cpu[0-9]+', f):
            count += 1
    return count


def parse_dmar_devscope(f):
    offset = 0
    (scope_type, scope_len, bus, dev, fn) = \
        struct.unpack('<BBxxxBBB', f.read(8))
    offset += 8
    return (offset, scope_type, scope_len, bus, dev, fn)


# parsing of DMAR ACPI Table
# see Intel VT-d Spec chapter 8
def parse_dmar():
    f, e = input_open('/sys/firmware/acpi/tables/DMAR', True, True, 'rb')
    if not f:
        if options.generate_collector:
            return 0, []
        if e:
            raise e
        raise RuntimeError('could not find DMAR ACPI table')

    signature = f.read(4)
    if signature != b'DMAR':
        raise RuntimeError('incorrect input file format %s' % signature)
    (length,) = struct.unpack('<I', f.read(4))
    f.seek(48)
    length -= 48
    regions = []
    ioapic_id = 0

    while length > 0:
        offset = 0
        (struct_type, struct_len) = struct.unpack('<HH', f.read(4))
        offset += 4
        length -= struct_len

        # DMA Remapping Hardware Unit Definition
        if struct_type == 0:
            f.seek(16 - offset, os.SEEK_CUR)
            offset += 16 - offset
            while offset < struct_len:
                (off, scope_type, scope_len, bus, dev, fn) =\
                    parse_dmar_devscope(f)
                offset += off
                if scope_type == 3:
                    if ioapic_id != 0:
                        raise RuntimeError('We do not support more '
                                           'than 1 IOAPIC')
                    ioapic_id = (bus << 8) | (dev << 3) | fn
                f.seek(scope_len - 8, os.SEEK_CUR)
                offset += scope_len - 8

        # Reserved Memory Region Reporting Structure
        if struct_type == 1:
            f.seek(8 - offset, os.SEEK_CUR)
            offset += 8 - offset
            (base, limit) = struct.unpack('<QQ', f.read(16))
            offset += 16

            comments = []
            while offset < struct_len:
                (off, scope_type, scope_len, bus, dev, fn) =\
                    parse_dmar_devscope(f)
                offset += off
                npath = (scope_len - 6)/2
                if scope_type == 1 and npath == 1:
                    comments.append('PCI device: %02x:%02x.%x' %
                                    (bus, dev, fn))
                else:
                    comments.append('DMAR parser could not decode device path')
                f.seek(scope_len - off, os.SEEK_CUR)
                offset += scope_len - off

            reg = MemRegion(base, limit, 'ACPI DMAR RMRR', comments)
            regions.append(reg)

        f.seek(struct_len - offset, os.SEEK_CUR)

    return ioapic_id, regions


def parse_ioports():
    pm_timer_base = None
    f, e = input_open('/proc/ioports', True, False, 'r')
    for line in f:
        if line.endswith('ACPI PM_TMR\n'):
            pm_timer_base = int(line.split('-')[0], 16)
            break
    f.close()
    return pm_timer_base


pcidevices = parse_pcidevices()

product = [input_readline('/sys/class/dmi/id/sys_vendor',
                          True, True).rstrip(),
           input_readline('/sys/class/dmi/id/product_name',
                          True, True).rstrip()
           ]

inmatemem = kmg_multiply_str(options.mem_inmates)
hvmem = [0, kmg_multiply_str(options.mem_hv)]

regions = parse_iomem()
ourmem = parse_cmdline()
total = hvmem[1] + inmatemem

ioapic_id, rmrr_regs = parse_dmar()
regions += rmrr_regs

# kernel does not have memmap region, pick one
if ourmem is None:
    ourmem = alloc_mem(regions, total)
elif (total > ourmem[1]):
    raise RuntimeError('Your memmap reservation is too small you need >="' +
                       hex(total) + '"')

hvmem[0] = ourmem[0]

creg = MemRegion.find_region(regions, 'ACPI Tables')
if creg is None:
    raise RuntimeError('could not find "ACPI Tables" memory')
confmem = [creg.start, creg.size()]
inmatereg = MemRegion(ourmem[0] + hvmem[1],
                      ourmem[0] + hvmem[1] + inmatemem - 1,
                      'JAILHOUSE Inmate Memory')
regions.append(inmatereg)

cpucount = count_cpus()

pm_timer_base = parse_ioports()

jh_enabled = input_readline('/sys/devices/jailhouse/enabled',
                            True, True).rstrip()
if options.generate_collector is False and jh_enabled == '1':
    print('ERROR: Jailhouse was enabled when collecting input files! '
          'Disable jailhouse and try again.',
          file=sys.stderr)
    sys.exit(1)

f = open(options.file, 'w')

if options.generate_collector:
    filelist = ' '.join(inputs['files'].union(inputs['dirs']))

    tmpl = Template(filename='jailhouse-config-collect.tmpl')
    f.write(tmpl.render(filelist=filelist))
else:
    tmpl = Template(filename='root-cell-config.c.tmpl')
    f.write(tmpl.render(regions=regions,
                        ourmem=ourmem,
                        argstr=' '.join(sys.argv),
                        hvmem=hvmem,
                        confmem=confmem,
                        product=product,
                        pcidevices=pcidevices,
                        cpucount=cpucount,
                        ioapic_id=ioapic_id,
                        pm_timer_base=pm_timer_base))