#!/usr/bin/env python3 # # Exercise QEMU generated ACPI/SMBIOS tables using biosbits, # https://biosbits.org/ # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # # # Author: # Ani Sinha # pylint: disable=invalid-name # pylint: disable=consider-using-f-string """ This is QEMU ACPI/SMBIOS functional tests using biosbits. Biosbits is available originally at https://biosbits.org/. This test uses a fork of the upstream bits and has numerous fixes including an upgraded acpica. The fork is located here: https://gitlab.com/qemu-project/biosbits-bits . """ import logging import os import platform import re import shutil import subprocess import tarfile import tempfile import time import zipfile from pathlib import Path from typing import ( List, Optional, Sequence, ) from qemu.machine import QEMUMachine from unittest import skipIf from qemu_test import QemuBaseTest, Asset deps = ["xorriso", "mformat"] # dependent tools needed in the test setup/box. supported_platforms = ['x86_64'] # supported test platforms. # default timeout of 120 secs is sometimes not enough for bits test. BITS_TIMEOUT = 200 def which(tool): """ looks up the full path for @tool, returns None if not found or if @tool does not have executable permissions. """ paths=os.getenv('PATH') for p in paths.split(os.path.pathsep): p = os.path.join(p, tool) if os.path.exists(p) and os.access(p, os.X_OK): return p return None def missing_deps(): """ returns True if any of the test dependent tools are absent. """ for dep in deps: if which(dep) is None: return True return False def supported_platform(): """ checks if the test is running on a supported platform. """ return platform.machine() in supported_platforms class QEMUBitsMachine(QEMUMachine): # pylint: disable=too-few-public-methods """ A QEMU VM, with isa-debugcon enabled and bits iso passed using -cdrom to QEMU commandline. """ def __init__(self, binary: str, args: Sequence[str] = (), wrapper: Sequence[str] = (), name: Optional[str] = None, base_temp_dir: str = "/var/tmp", debugcon_log: str = "debugcon-log.txt", debugcon_addr: str = "0x403", qmp_timer: Optional[float] = None): # pylint: disable=too-many-arguments if name is None: name = "qemu-bits-%d" % os.getpid() super().__init__(binary, args, wrapper=wrapper, name=name, base_temp_dir=base_temp_dir, qmp_timer=qmp_timer) self.debugcon_log = debugcon_log self.debugcon_addr = debugcon_addr self.base_temp_dir = base_temp_dir @property def _base_args(self) -> List[str]: args = super()._base_args args.extend([ '-chardev', 'file,path=%s,id=debugcon' %os.path.join(self.base_temp_dir, self.debugcon_log), '-device', 'isa-debugcon,iobase=%s,chardev=debugcon' %self.debugcon_addr, ]) return args def base_args(self): """return the base argument to QEMU binary""" return self._base_args @skipIf(not supported_platform() or missing_deps(), 'unsupported platform or dependencies (%s) not installed' \ % ','.join(deps)) class AcpiBitsTest(QemuBaseTest): #pylint: disable=too-many-instance-attributes """ ACPI and SMBIOS tests using biosbits. """ # in slower systems the test can take as long as 3 minutes to complete. timeout = BITS_TIMEOUT # following are some standard configuration constants # gitlab CI does shallow clones of depth 20 BITS_INTERNAL_VER = 2020 # commit hash must match the artifact tag below BITS_COMMIT_HASH = 'c7920d2b' # this is the latest bits release as of today. BITS_TAG = "qemu-bits-10262023" ASSET_BITS = Asset(("https://gitlab.com/qemu-project/" "biosbits-bits/-/jobs/artifacts/%s/" "download?job=qemu-bits-build" % BITS_TAG), '1b8dd612c6831a6b491716a77acc486666aaa867051cdc34f7ce169c2e25f487') def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self._vm = None self._workDir = None self._baseDir = None self._debugcon_addr = '0x403' self._debugcon_log = 'debugcon-log.txt' self.logger = self.log def _print_log(self, log): self.logger.info('\nlogs from biosbits follows:') self.logger.info('==========================================\n') self.logger.info(log) self.logger.info('==========================================\n') def copy_bits_config(self): """ copies the bios bits config file into bits. """ config_file = 'bits-cfg.txt' bits_config_dir = os.path.join(self._baseDir, 'acpi-bits', 'bits-config') target_config_dir = os.path.join(self._workDir, 'bits-%d' %self.BITS_INTERNAL_VER, 'boot') self.assertTrue(os.path.exists(bits_config_dir)) self.assertTrue(os.path.exists(target_config_dir)) self.assertTrue(os.access(os.path.join(bits_config_dir, config_file), os.R_OK)) shutil.copy2(os.path.join(bits_config_dir, config_file), target_config_dir) self.logger.info('copied config file %s to %s', config_file, target_config_dir) def copy_test_scripts(self): """copies the python test scripts into bits. """ bits_test_dir = os.path.join(self._baseDir, 'acpi-bits', 'bits-tests') target_test_dir = os.path.join(self._workDir, 'bits-%d' %self.BITS_INTERNAL_VER, 'boot', 'python') self.assertTrue(os.path.exists(bits_test_dir)) self.assertTrue(os.path.exists(target_test_dir)) for filename in os.listdir(bits_test_dir): if os.path.isfile(os.path.join(bits_test_dir, filename)) and \ filename.endswith('.py2'): # all test scripts are named with extension .py2 so that # avocado does not try to load them. These scripts are # written for python 2.7 not python 3 and hence if avocado # loaded them, it would complain about python 3 specific # syntaxes. newfilename = os.path.splitext(filename)[0] + '.py' shutil.copy2(os.path.join(bits_test_dir, filename), os.path.join(target_test_dir, newfilename)) self.logger.info('copied test file %s to %s', filename, target_test_dir) # now remove the pyc test file if it exists, otherwise the # changes in the python test script won't be executed. testfile_pyc = os.path.splitext(filename)[0] + '.pyc' if os.access(os.path.join(target_test_dir, testfile_pyc), os.F_OK): os.remove(os.path.join(target_test_dir, testfile_pyc)) self.logger.info('removed compiled file %s', os.path.join(target_test_dir, testfile_pyc)) def fix_mkrescue(self, mkrescue): """ grub-mkrescue is a bash script with two variables, 'prefix' and 'libdir'. They must be pointed to the right location so that the iso can be generated appropriately. We point the two variables to the directory where we have extracted our pre-built bits grub tarball. """ grub_x86_64_mods = os.path.join(self._workDir, 'grub-inst-x86_64-efi') grub_i386_mods = os.path.join(self._workDir, 'grub-inst') self.assertTrue(os.path.exists(grub_x86_64_mods)) self.assertTrue(os.path.exists(grub_i386_mods)) new_script = "" with open(mkrescue, 'r', encoding='utf-8') as filehandle: orig_script = filehandle.read() new_script = re.sub('(^prefix=)(.*)', r'\1"%s"' %grub_x86_64_mods, orig_script, flags=re.M) new_script = re.sub('(^libdir=)(.*)', r'\1"%s/lib"' %grub_i386_mods, new_script, flags=re.M) with open(mkrescue, 'w', encoding='utf-8') as filehandle: filehandle.write(new_script) def generate_bits_iso(self): """ Uses grub-mkrescue to generate a fresh bits iso with the python test scripts """ bits_dir = os.path.join(self._workDir, 'bits-%d' %self.BITS_INTERNAL_VER) iso_file = os.path.join(self._workDir, 'bits-%d.iso' %self.BITS_INTERNAL_VER) mkrescue_script = os.path.join(self._workDir, 'grub-inst-x86_64-efi', 'bin', 'grub-mkrescue') self.assertTrue(os.access(mkrescue_script, os.R_OK | os.W_OK | os.X_OK)) self.fix_mkrescue(mkrescue_script) self.logger.info('using grub-mkrescue for generating biosbits iso ...') try: if os.getenv('V') or os.getenv('BITS_DEBUG'): proc = subprocess.run([mkrescue_script, '-o', iso_file, bits_dir], stdout=subprocess.PIPE, stderr=subprocess.STDOUT, check=True) self.logger.info("grub-mkrescue output %s" % proc.stdout) else: subprocess.check_call([mkrescue_script, '-o', iso_file, bits_dir], stderr=subprocess.DEVNULL, stdout=subprocess.DEVNULL) except Exception as e: # pylint: disable=broad-except self.skipTest("Error while generating the bits iso. " "Pass V=1 in the environment to get more details. " + str(e)) self.assertTrue(os.access(iso_file, os.R_OK)) self.logger.info('iso file %s successfully generated.', iso_file) def setUp(self): # pylint: disable=arguments-differ super().setUp('qemu-system-') self.logger = self.log self._baseDir = Path(__file__).parent # workdir could also be avocado's own workdir in self.workdir. # At present, I prefer to maintain my own temporary working # directory. It gives us more control over the generated bits # log files and also for debugging, we may chose not to remove # this working directory so that the logs and iso can be # inspected manually and archived if needed. self._workDir = tempfile.mkdtemp(prefix='acpi-bits-', suffix='.tmp') self.logger.info('working dir: %s', self._workDir) prebuiltDir = os.path.join(self._workDir, 'prebuilt') if not os.path.isdir(prebuiltDir): os.mkdir(prebuiltDir, mode=0o775) bits_zip_file = os.path.join(prebuiltDir, 'bits-%d-%s.zip' %(self.BITS_INTERNAL_VER, self.BITS_COMMIT_HASH)) grub_tar_file = os.path.join(prebuiltDir, 'bits-%d-%s-grub.tar.gz' %(self.BITS_INTERNAL_VER, self.BITS_COMMIT_HASH)) bitsLocalArtLoc = self.ASSET_BITS.fetch() self.logger.info("downloaded bits artifacts to %s", bitsLocalArtLoc) # extract the bits artifact in the temp working directory with zipfile.ZipFile(bitsLocalArtLoc, 'r') as zref: zref.extractall(prebuiltDir) # extract the bits software in the temp working directory with zipfile.ZipFile(bits_zip_file, 'r') as zref: zref.extractall(self._workDir) with tarfile.open(grub_tar_file, 'r', encoding='utf-8') as tarball: tarball.extractall(self._workDir) self.copy_test_scripts() self.copy_bits_config() self.generate_bits_iso() def parse_log(self): """parse the log generated by running bits tests and check for failures. """ debugconf = os.path.join(self._workDir, self._debugcon_log) log = "" with open(debugconf, 'r', encoding='utf-8') as filehandle: log = filehandle.read() matchiter = re.finditer(r'(.*Summary: )(\d+ passed), (\d+ failed).*', log) for match in matchiter: # verify that no test cases failed. try: self.assertEqual(match.group(3).split()[0], '0', 'Some bits tests seems to have failed. ' \ 'Please check the test logs for more info.') except AssertionError as e: self._print_log(log) raise e else: if os.getenv('V') or os.getenv('BITS_DEBUG'): self._print_log(log) def tearDown(self): """ Lets do some cleanups. """ if self._vm: self.assertFalse(not self._vm.is_running) if not os.getenv('BITS_DEBUG') and self._workDir: self.logger.info('removing the work directory %s', self._workDir) shutil.rmtree(self._workDir) else: self.logger.info('not removing the work directory %s ' \ 'as BITS_DEBUG is ' \ 'passed in the environment', self._workDir) super().tearDown() def test_acpi_smbios_bits(self): """The main test case implementation.""" iso_file = os.path.join(self._workDir, 'bits-%d.iso' %self.BITS_INTERNAL_VER) self.assertTrue(os.access(iso_file, os.R_OK)) self._vm = QEMUBitsMachine(binary=self.qemu_bin, base_temp_dir=self._workDir, debugcon_log=self._debugcon_log, debugcon_addr=self._debugcon_addr) self._vm.add_args('-cdrom', '%s' %iso_file) # the vm needs to be run under icount so that TCG emulation is # consistent in terms of timing. smilatency tests have consistent # timing requirements. self._vm.add_args('-icount', 'auto') # currently there is no support in bits for recognizing 64-bit SMBIOS # entry points. QEMU defaults to 64-bit entry points since the # upstream commit bf376f3020 ("hw/i386/pc: Default to use SMBIOS 3.0 # for newer machine models"). Therefore, enforce 32-bit entry point. self._vm.add_args('-machine', 'smbios-entry-point-type=32') # enable console logging self._vm.set_console() self._vm.launch() # biosbits has been configured to run all the specified test suites # in batch mode and then automatically initiate a vm shutdown. # Set timeout to BITS_TIMEOUT for SHUTDOWN event from bits VM at par # with the avocado test timeout. self._vm.event_wait('SHUTDOWN', timeout=BITS_TIMEOUT) self._vm.wait(timeout=None) self.logger.debug("Checking console output ...") self.parse_log() if __name__ == '__main__': QemuBaseTest.main()