qemu/tests/acceptance/avocado_qemu/__init__.py

# Test class and utilities for functional tests
#
# Copyright (c) 2018 Red Hat, Inc.
#
# Author:
#  Cleber Rosa <crosa@redhat.com>
#
# This work is licensed under the terms of the GNU GPL, version 2 or
# later.  See the COPYING file in the top-level directory.

import logging
import os
import sys
import uuid
import tempfile

import avocado

#: The QEMU build root directory.  It may also be the source directory
#: if building from the source dir, but it's safer to use BUILD_DIR for
#: that purpose.  Be aware that if this code is moved outside of a source
#: and build tree, it will not be accurate.
BUILD_DIR = os.path.dirname(os.path.dirname(os.path.dirname(os.path.dirname(__file__))))

if os.path.islink(os.path.dirname(os.path.dirname(__file__))):
    # The link to the acceptance tests dir in the source code directory
    lnk = os.path.dirname(os.path.dirname(__file__))
    #: The QEMU root source directory
    SOURCE_DIR = os.path.dirname(os.path.dirname(os.readlink(lnk)))
else:
    SOURCE_DIR = BUILD_DIR

sys.path.append(os.path.join(SOURCE_DIR, 'python'))

from qemu.machine import QEMUMachine

def is_readable_executable_file(path):
    return os.path.isfile(path) and os.access(path, os.R_OK | os.X_OK)


def pick_default_qemu_bin(arch=None):
    """
    Picks the path of a QEMU binary, starting either in the current working
    directory or in the source tree root directory.

    :param arch: the arch to use when looking for a QEMU binary (the target
                 will match the arch given).  If None (the default), arch
                 will be the current host system arch (as given by
                 :func:`os.uname`).
    :type arch: str
    :returns: the path to the default QEMU binary or None if one could not
              be found
    :rtype: str or None
    """
    if arch is None:
        arch = os.uname()[4]
    # qemu binary path does not match arch for powerpc, handle it
    if 'ppc64le' in arch:
        arch = 'ppc64'
    qemu_bin_relative_path = "./qemu-system-%s" % arch
    if is_readable_executable_file(qemu_bin_relative_path):
        return qemu_bin_relative_path

    qemu_bin_from_bld_dir_path = os.path.join(BUILD_DIR,
                                              qemu_bin_relative_path)
    if is_readable_executable_file(qemu_bin_from_bld_dir_path):
        return qemu_bin_from_bld_dir_path


def _console_interaction(test, success_message, failure_message,
                         send_string, keep_sending=False, vm=None):
    assert not keep_sending or send_string
    if vm is None:
        vm = test.vm
    console = vm.console_socket.makefile()
    console_logger = logging.getLogger('console')
    while True:
        if send_string:
            vm.console_socket.sendall(send_string.encode())
            if not keep_sending:
                send_string = None # send only once
        msg = console.readline().strip()
        if not msg:
            continue
        console_logger.debug(msg)
        if success_message in msg:
            break
        if failure_message and failure_message in msg:
            console.close()
            fail = 'Failure message found in console: %s' % failure_message
            test.fail(fail)

def interrupt_interactive_console_until_pattern(test, success_message,
                                                failure_message=None,
                                                interrupt_string='\r'):
    """
    Keep sending a string to interrupt a console prompt, while logging the
    console output. Typical use case is to break a boot loader prompt, such:

        Press a key within 5 seconds to interrupt boot process.
        5
        4
        3
        2
        1
        Booting default image...

    :param test: an Avocado test containing a VM that will have its console
                 read and probed for a success or failure message
    :type test: :class:`avocado_qemu.Test`
    :param success_message: if this message appears, test succeeds
    :param failure_message: if this message appears, test fails
    :param interrupt_string: a string to send to the console before trying
                             to read a new line
    """
    _console_interaction(test, success_message, failure_message,
                         interrupt_string, True)

def wait_for_console_pattern(test, success_message, failure_message=None,
                             vm=None):
    """
    Waits for messages to appear on the console, while logging the content

    :param test: an Avocado test containing a VM that will have its console
                 read and probed for a success or failure message
    :type test: :class:`avocado_qemu.Test`
    :param success_message: if this message appears, test succeeds
    :param failure_message: if this message appears, test fails
    """
    _console_interaction(test, success_message, failure_message, None, vm=vm)

def exec_command_and_wait_for_pattern(test, command,
                                      success_message, failure_message=None):
    """
    Send a command to a console (appending CRLF characters), then wait
    for success_message to appear on the console, while logging the.
    content. Mark the test as failed if failure_message is found instead.

    :param test: an Avocado test containing a VM that will have its console
                 read and probed for a success or failure message
    :type test: :class:`avocado_qemu.Test`
    :param command: the command to send
    :param success_message: if this message appears, test succeeds
    :param failure_message: if this message appears, test fails
    """
    _console_interaction(test, success_message, failure_message, command + '\r')

class Test(avocado.Test):
    def _get_unique_tag_val(self, tag_name):
        """
        Gets a tag value, if unique for a key
        """
        vals = self.tags.get(tag_name, [])
        if len(vals) == 1:
            return vals.pop()
        return None

    def setUp(self):
        self._vms = {}

        self.arch = self.params.get('arch',
                                    default=self._get_unique_tag_val('arch'))

        self.machine = self.params.get('machine',
                                       default=self._get_unique_tag_val('machine'))

        default_qemu_bin = pick_default_qemu_bin(arch=self.arch)
        self.qemu_bin = self.params.get('qemu_bin',
                                        default=default_qemu_bin)
        if self.qemu_bin is None:
            self.cancel("No QEMU binary defined or found in the build tree")

    def _new_vm(self, *args):
        vm = QEMUMachine(self.qemu_bin, sock_dir=tempfile.mkdtemp())
        if args:
            vm.add_args(*args)
        return vm

    @property
    def vm(self):
        return self.get_vm(name='default')

    def get_vm(self, *args, name=None):
        if not name:
            name = str(uuid.uuid4())
        if self._vms.get(name) is None:
            self._vms[name] = self._new_vm(*args)
            if self.machine is not None:
                self._vms[name].set_machine(self.machine)
        return self._vms[name]

    def tearDown(self):
        for vm in self._vms.values():
            vm.shutdown()

    def fetch_asset(self, name,
                    asset_hash=None, algorithm=None,
                    locations=None, expire=None,
                    find_only=False, cancel_on_missing=True):
        return super(Test, self).fetch_asset(name,
                        asset_hash=asset_hash,
                        algorithm=algorithm,
                        locations=locations,
                        expire=expire,
                        find_only=find_only,
                        cancel_on_missing=cancel_on_missing)