# Copyright (C) 2013 Intel Corporation # # SPDX-License-Identifier: MIT inherit metadata_scm inherit image-artifact-names # testimage.bbclass enables testing of qemu images using python unittests. # Most of the tests are commands run on target image over ssh. # To use it add testimage to global inherit and call your target image with -c testimage # You can try it out like this: # - first add IMAGE_CLASSES += "testimage" in local.conf # - build a qemu core-image-sato # - then bitbake core-image-sato -c testimage. That will run a standard suite of tests. # # The tests can be run automatically each time an image is built if you set # TESTIMAGE_AUTO = "1" TESTIMAGE_AUTO ??= "0" # When any test fails, TESTIMAGE_FAILED_QA ARTIFACTS will be parsed and for # each entry in it, if artifact pointed by path description exists on target, # it will be retrieved onto host TESTIMAGE_FAILED_QA_ARTIFACTS = "\ ${localstatedir}/log \ ${sysconfdir}/version \ ${sysconfdir}/os-release" # If some ptests are run and fail, retrieve corresponding directories TESTIMAGE_FAILED_QA_ARTIFACTS += "${@bb.utils.contains('DISTRO_FEATURES', 'ptest', '${libdir}/${MCNAME}/ptest', '', d)}" # You can set (or append to) TEST_SUITES in local.conf to select the tests # which you want to run for your target. # The test names are the module names in meta/lib/oeqa/runtime/cases. # Each name in TEST_SUITES represents a required test for the image. (no skipping allowed) # Appending "auto" means that it will try to run all tests that are suitable for the image (each test decides that on it's own). # Note that order in TEST_SUITES is relevant: tests are run in an order such that # tests mentioned in @skipUnlessPassed run before the tests that depend on them, # but without such dependencies, tests run in the order in which they are listed # in TEST_SUITES. # # A layer can add its own tests in lib/oeqa/runtime, provided it extends BBPATH as normal in its layer.conf. # TEST_LOG_DIR contains a command ssh log and may contain infromation about what command is running, output and return codes and for qemu a boot log till login. # Booting is handled by this class, and it's not a test in itself. # TEST_QEMUBOOT_TIMEOUT can be used to set the maximum time in seconds the launch code will wait for the login prompt. # TEST_OVERALL_TIMEOUT can be used to set the maximum time in seconds the tests will be allowed to run (defaults to no limit). # TEST_QEMUPARAMS can be used to pass extra parameters to qemu, e.g. "-m 1024" for setting the amount of ram to 1 GB. # TEST_RUNQEMUPARAMS can be used to pass extra parameters to runqemu, e.g. "gl" to enable OpenGL acceleration. # QEMU_USE_KVM can be set to "" to disable the use of kvm (by default it is enabled if target_arch == build_arch or both of them are x86 archs) # TESTIMAGE_BOOT_PATTERNS can be used to override certain patterns used to communicate with the target when booting, # if a pattern is not specifically present on this variable a default will be used when booting the target. # TESTIMAGE_BOOT_PATTERNS[] overrides the pattern used for that specific flag, where flag comes from a list of accepted flags # e.g. normally the system boots and waits for a login prompt (login:), after that it sends the command: "root\n" to log as the root user # if we wanted to log in as the hypothetical "webserver" user for example we could set the following: # TESTIMAGE_BOOT_PATTERNS = "send_login_user search_login_succeeded" # TESTIMAGE_BOOT_PATTERNS[send_login_user] = "webserver\n" # TESTIMAGE_BOOT_PATTERNS[search_login_succeeded] = "webserver@[a-zA-Z0-9\-]+:~#" # The accepted flags are the following: search_reached_prompt, send_login_user, search_login_succeeded, search_cmd_finished. # They are prefixed with either search/send, to differentiate if the pattern is meant to be sent or searched to/from the target terminal TEST_LOG_DIR ?= "${WORKDIR}/testimage" TEST_EXPORT_DIR ?= "${TMPDIR}/testimage/${PN}" TEST_INSTALL_TMP_DIR ?= "${WORKDIR}/testimage/install_tmp" TEST_NEEDED_PACKAGES_DIR ?= "${WORKDIR}/testimage/packages" TEST_EXTRACTED_DIR ?= "${TEST_NEEDED_PACKAGES_DIR}/extracted" TEST_PACKAGED_DIR ?= "${TEST_NEEDED_PACKAGES_DIR}/packaged" BASICTESTSUITE = "\ ping date df ssh scp python perl gi ptest parselogs \ logrotate connman systemd oe_syslog pam stap ldd xorg \ kernelmodule gcc buildcpio buildlzip buildgalculator \ dnf rpm opkg apt weston go rust" DEFAULT_TEST_SUITES = "${BASICTESTSUITE}" # musl doesn't support systemtap DEFAULT_TEST_SUITES:remove:libc-musl = "stap" # qemumips is quite slow and has reached the timeout limit several times on the YP build cluster, # mitigate this by removing build tests for qemumips machines. MIPSREMOVE ??= "buildcpio buildlzip buildgalculator" DEFAULT_TEST_SUITES:remove:qemumips = "${MIPSREMOVE}" DEFAULT_TEST_SUITES:remove:qemumips64 = "${MIPSREMOVE}" TEST_SUITES ?= "${DEFAULT_TEST_SUITES}" QEMU_USE_KVM ?= "1" TEST_QEMUBOOT_TIMEOUT ?= "1000" TEST_OVERALL_TIMEOUT ?= "" TEST_TARGET ?= "qemu" TEST_QEMUPARAMS ?= "" TEST_RUNQEMUPARAMS ?= "" TESTIMAGE_BOOT_PATTERNS ?= "" TESTIMAGEDEPENDS = "" TESTIMAGEDEPENDS:append:qemuall = " qemu-native:do_populate_sysroot qemu-helper-native:do_populate_sysroot qemu-helper-native:do_addto_recipe_sysroot" TESTIMAGEDEPENDS += "${@bb.utils.contains('IMAGE_PKGTYPE', 'rpm', 'cpio-native:do_populate_sysroot', '', d)}" TESTIMAGEDEPENDS += "${@bb.utils.contains('IMAGE_PKGTYPE', 'rpm', 'dnf-native:do_populate_sysroot', '', d)}" TESTIMAGEDEPENDS += "${@bb.utils.contains('IMAGE_PKGTYPE', 'rpm', 'createrepo-c-native:do_populate_sysroot', '', d)}" TESTIMAGEDEPENDS += "${@bb.utils.contains('IMAGE_PKGTYPE', 'ipk', 'opkg-utils-native:do_populate_sysroot package-index:do_package_index', '', d)}" TESTIMAGEDEPENDS += "${@bb.utils.contains('IMAGE_PKGTYPE', 'deb', 'apt-native:do_populate_sysroot package-index:do_package_index', '', d)}" TESTIMAGELOCK = "${TMPDIR}/testimage.lock" TESTIMAGELOCK:qemuall = "" TESTIMAGE_DUMP_DIR ?= "${LOG_DIR}/runtime-hostdump/" TESTIMAGE_UPDATE_VARS ?= "DL_DIR WORKDIR DEPLOY_DIR_IMAGE IMAGE_LINK_NAME" testimage_dump_monitor () { query-status query-block dump-guest-memory {"paging":false,"protocol":"file:%s.img"} } python do_testimage() { testimage_main(d) } addtask testimage do_testimage[nostamp] = "1" do_testimage[network] = "1" do_testimage[depends] += "${TESTIMAGEDEPENDS}" do_testimage[lockfiles] += "${TESTIMAGELOCK}" def testimage_sanity(d): if (d.getVar('TEST_TARGET') == 'simpleremote' and (not d.getVar('TEST_TARGET_IP') or not d.getVar('TEST_SERVER_IP'))): bb.fatal('When TEST_TARGET is set to "simpleremote" ' 'TEST_TARGET_IP and TEST_SERVER_IP are needed too.') def get_testimage_configuration(d, test_type, machine): import platform from oeqa.utils.metadata import get_layers configuration = {'TEST_TYPE': test_type, 'MACHINE': machine, 'DISTRO': d.getVar("DISTRO"), 'IMAGE_BASENAME': d.getVar("IMAGE_BASENAME"), 'IMAGE_PKGTYPE': d.getVar("IMAGE_PKGTYPE"), 'STARTTIME': d.getVar("DATETIME"), 'HOST_DISTRO': oe.lsb.distro_identifier().replace(' ', '-'), 'LAYERS': get_layers(d.getVar("BBLAYERS"))} return configuration get_testimage_configuration[vardepsexclude] = "DATETIME" def get_testimage_result_id(configuration): return '%s_%s_%s_%s' % (configuration['TEST_TYPE'], configuration['IMAGE_BASENAME'], configuration['MACHINE'], configuration['STARTTIME']) def get_testimage_boot_patterns(d): from collections import defaultdict boot_patterns = defaultdict(str) # Only accept certain values accepted_patterns = ['search_reached_prompt', 'send_login_user', 'search_login_succeeded', 'search_cmd_finished'] # Not all patterns need to be overriden, e.g. perhaps we only want to change the user boot_patterns_flags = d.getVarFlags('TESTIMAGE_BOOT_PATTERNS') or {} if boot_patterns_flags: patterns_set = [p for p in boot_patterns_flags.items() if p[0] in d.getVar('TESTIMAGE_BOOT_PATTERNS').split()] for flag, flagval in patterns_set: if flag not in accepted_patterns: bb.fatal('Testimage: The only accepted boot patterns are: search_reached_prompt,send_login_user, \ search_login_succeeded,search_cmd_finished\n Make sure your TESTIMAGE_BOOT_PATTERNS=%s \ contains an accepted flag.' % d.getVar('TESTIMAGE_BOOT_PATTERNS')) return boot_patterns[flag] = flagval.encode().decode('unicode-escape') return boot_patterns def testimage_main(d): import os import json import signal import logging import shutil from bb.utils import export_proxies from oeqa.runtime.context import OERuntimeTestContext from oeqa.runtime.context import OERuntimeTestContextExecutor from oeqa.core.target.qemu import supported_fstypes from oeqa.core.utils.test import getSuiteCases from oeqa.utils import make_logger_bitbake_compatible from oeqa.utils import get_json_result_dir from oeqa.utils.postactions import run_failed_tests_post_actions def sigterm_exception(signum, stackframe): """ Catch SIGTERM from worker in order to stop qemu. """ os.kill(os.getpid(), signal.SIGINT) def handle_test_timeout(timeout): bb.warn("Global test timeout reached (%s seconds), stopping the tests." %(timeout)) os.kill(os.getpid(), signal.SIGINT) testimage_sanity(d) if (d.getVar('IMAGE_PKGTYPE') == 'rpm' and ('dnf' in d.getVar('TEST_SUITES') or 'auto' in d.getVar('TEST_SUITES'))): create_rpm_index(d) logger = make_logger_bitbake_compatible(logging.getLogger("BitBake")) pn = d.getVar("PN") bb.utils.mkdirhier(d.getVar("TEST_LOG_DIR")) image_name = ("%s/%s" % (d.getVar('DEPLOY_DIR_IMAGE'), d.getVar('IMAGE_LINK_NAME'))) tdname = "%s.testdata.json" % image_name try: with open(tdname, "r") as f: td = json.load(f) except FileNotFoundError as err: bb.fatal('File %s not found (%s).\nHave you built the image with IMAGE_CLASSES += "testimage" in the conf/local.conf?' % (tdname, err)) # Some variables need to be updates (mostly paths) with the # ones of the current environment because some tests require them. for var in d.getVar('TESTIMAGE_UPDATE_VARS').split(): td[var] = d.getVar(var) td['ORIGPATH'] = d.getVar("BB_ORIGENV").getVar("PATH") image_manifest = "%s.manifest" % image_name image_packages = OERuntimeTestContextExecutor.readPackagesManifest(image_manifest) extract_dir = d.getVar("TEST_EXTRACTED_DIR") # Get machine machine = d.getVar("MACHINE") # Get rootfs fstypes = d.getVar('IMAGE_FSTYPES').split() if d.getVar("TEST_TARGET") == "qemu": fstypes = [fs for fs in fstypes if fs in supported_fstypes] if not fstypes: bb.fatal('Unsupported image type built. Add a compatible image to ' 'IMAGE_FSTYPES. Supported types: %s' % ', '.join(supported_fstypes)) qfstype = fstypes[0] qdeffstype = d.getVar("QB_DEFAULT_FSTYPE") if qdeffstype: qfstype = qdeffstype rootfs = '%s.%s' % (image_name, qfstype) # Get tmpdir (not really used, just for compatibility) tmpdir = d.getVar("TMPDIR") # Get deploy_dir_image (not really used, just for compatibility) dir_image = d.getVar("DEPLOY_DIR_IMAGE") # Get bootlog bootlog = os.path.join(d.getVar("TEST_LOG_DIR"), 'qemu_boot_log.%s' % d.getVar('DATETIME')) # Get display display = d.getVar("BB_ORIGENV").getVar("DISPLAY") # Get kernel kernel_name = ('%s-%s.bin' % (d.getVar("KERNEL_IMAGETYPE"), machine)) kernel = os.path.join(d.getVar("DEPLOY_DIR_IMAGE"), kernel_name) # Get boottime boottime = int(d.getVar("TEST_QEMUBOOT_TIMEOUT")) # Get use_kvm kvm = oe.types.qemu_use_kvm(d.getVar('QEMU_USE_KVM'), d.getVar('TARGET_ARCH')) # Get OVMF ovmf = d.getVar("QEMU_USE_OVMF") slirp = False if bb.utils.contains('TEST_RUNQEMUPARAMS', 'slirp', True, False, d): slirp = True # TODO: We use the current implementation of qemu runner because of # time constrains, qemu runner really needs a refactor too. target_kwargs = { 'machine' : machine, 'rootfs' : rootfs, 'tmpdir' : tmpdir, 'dir_image' : dir_image, 'display' : display, 'kernel' : kernel, 'boottime' : boottime, 'bootlog' : bootlog, 'kvm' : kvm, 'slirp' : slirp, 'dump_dir' : d.getVar("TESTIMAGE_DUMP_DIR"), 'serial_ports': len(d.getVar("SERIAL_CONSOLES").split()), 'ovmf' : ovmf, 'tmpfsdir' : d.getVar("RUNQEMU_TMPFS_DIR"), } if d.getVar("TESTIMAGE_BOOT_PATTERNS"): target_kwargs['boot_patterns'] = get_testimage_boot_patterns(d) # hardware controlled targets might need further access target_kwargs['powercontrol_cmd'] = d.getVar("TEST_POWERCONTROL_CMD") or None target_kwargs['powercontrol_extra_args'] = d.getVar("TEST_POWERCONTROL_EXTRA_ARGS") or "" target_kwargs['serialcontrol_cmd'] = d.getVar("TEST_SERIALCONTROL_CMD") or None target_kwargs['serialcontrol_extra_args'] = d.getVar("TEST_SERIALCONTROL_EXTRA_ARGS") or "" target_kwargs['testimage_dump_monitor'] = d.getVar("testimage_dump_monitor") or "" def export_ssh_agent(d): import os variables = ['SSH_AGENT_PID', 'SSH_AUTH_SOCK'] for v in variables: if v not in os.environ.keys(): val = d.getVar(v) if val is not None: os.environ[v] = val export_ssh_agent(d) # runtime use network for download projects for build export_proxies(d) if slirp: # Default to 127.0.0.1 and let the runner identify the port forwarding # (as OEQemuTarget does), but allow overriding. target_ip = d.getVar("TEST_TARGET_IP") or "127.0.0.1" # Default to 10.0.2.2 as this is the IP that the guest has with the # default qemu slirp networking configuration, but allow overriding. server_ip = d.getVar("TEST_SERVER_IP") or "10.0.2.2" else: target_ip = d.getVar("TEST_TARGET_IP") server_ip = d.getVar("TEST_SERVER_IP") # the robot dance target = OERuntimeTestContextExecutor.getTarget( d.getVar("TEST_TARGET"), logger, target_ip, server_ip, **target_kwargs) # test context tc = OERuntimeTestContext(td, logger, target, image_packages, extract_dir) # Load tests before starting the target test_paths = get_runtime_paths(d) test_modules = d.getVar('TEST_SUITES').split() if not test_modules: bb.fatal('Empty test suite, please verify TEST_SUITES variable') tc.loadTests(test_paths, modules=test_modules) suitecases = getSuiteCases(tc.suites) if not suitecases: bb.fatal('Empty test suite, please verify TEST_SUITES variable') else: bb.debug(2, 'test suites:\n\t%s' % '\n\t'.join([str(c) for c in suitecases])) package_extraction(d, tc.suites) results = None complete = False orig_sigterm_handler = signal.signal(signal.SIGTERM, sigterm_exception) try: # We need to check if runqemu ends unexpectedly # or if the worker send us a SIGTERM tc.target.start(params=d.getVar("TEST_QEMUPARAMS"), runqemuparams=d.getVar("TEST_RUNQEMUPARAMS")) import threading try: threading.Timer(int(d.getVar("TEST_OVERALL_TIMEOUT")), handle_test_timeout, (int(d.getVar("TEST_OVERALL_TIMEOUT")),)).start() except ValueError: pass results = tc.runTests() complete = True if results.hasAnyFailingTest(): run_failed_tests_post_actions(d, tc) except (KeyboardInterrupt, BlockingIOError) as err: if isinstance(err, KeyboardInterrupt): bb.error('testimage interrupted, shutting down...') else: bb.error('runqemu failed, shutting down...') if results: results.stop() results = tc.results finally: signal.signal(signal.SIGTERM, orig_sigterm_handler) tc.target.stop() # Show results (if we have them) if results: configuration = get_testimage_configuration(d, 'runtime', machine) results.logDetails(get_json_result_dir(d), configuration, get_testimage_result_id(configuration), dump_streams=d.getVar('TESTREPORT_FULLLOGS')) results.logSummary(pn) # Copy additional logs to tmp/log/oeqa so it's easier to find them targetdir = os.path.join(get_json_result_dir(d), d.getVar("PN")) os.makedirs(targetdir, exist_ok=True) os.symlink(bootlog, os.path.join(targetdir, os.path.basename(bootlog))) os.symlink(d.getVar("BB_LOGFILE"), os.path.join(targetdir, os.path.basename(d.getVar("BB_LOGFILE") + "." + d.getVar('DATETIME')))) if not results or not complete: bb.fatal('%s - FAILED - tests were interrupted during execution, check the logs in %s' % (pn, d.getVar("LOG_DIR")), forcelog=True) if not results.wasSuccessful(): bb.fatal('%s - FAILED - also check the logs in %s' % (pn, d.getVar("LOG_DIR")), forcelog=True) def get_runtime_paths(d): """ Returns a list of paths where runtime test must reside. Runtime tests are expected in /lib/oeqa/runtime/cases/ """ paths = [] for layer in d.getVar('BBLAYERS').split(): path = os.path.join(layer, 'lib/oeqa/runtime/cases') if os.path.isdir(path): paths.append(path) return paths def create_index(arg): import subprocess index_cmd = arg try: bb.note("Executing '%s' ..." % index_cmd) result = subprocess.check_output(index_cmd, stderr=subprocess.STDOUT, shell=True) result = result.decode('utf-8') except subprocess.CalledProcessError as e: return("Index creation command '%s' failed with return code " '%d:\n%s' % (e.cmd, e.returncode, e.output.decode("utf-8"))) if result: bb.note(result) return None def create_rpm_index(d): import glob # Index RPMs rpm_createrepo = bb.utils.which(os.getenv('PATH'), "createrepo_c") index_cmds = [] archs = (d.getVar('ALL_MULTILIB_PACKAGE_ARCHS') or '').replace('-', '_') for arch in archs.split(): rpm_dir = os.path.join(d.getVar('DEPLOY_DIR_RPM'), arch) idx_path = os.path.join(d.getVar('WORKDIR'), 'oe-testimage-repo', arch) if not os.path.isdir(rpm_dir): continue lockfilename = os.path.join(d.getVar('DEPLOY_DIR_RPM'), 'rpm.lock') lf = bb.utils.lockfile(lockfilename, False) oe.path.copyhardlinktree(rpm_dir, idx_path) # Full indexes overload a 256MB image so reduce the number of rpms # in the feed by filtering to specific packages needed by the tests. package_list = glob.glob(idx_path + "*/*.rpm") for pkg in package_list: if not os.path.basename(pkg).startswith(("dnf-test-", "busybox", "update-alternatives", "libc6", "musl")): bb.utils.remove(pkg) bb.utils.unlockfile(lf) cmd = '%s --update -q %s' % (rpm_createrepo, idx_path) # Create repodata result = create_index(cmd) if result: bb.fatal('%s' % ('\n'.join(result))) def package_extraction(d, test_suites): from oeqa.utils.package_manager import find_packages_to_extract from oeqa.utils.package_manager import extract_packages bb.utils.remove(d.getVar("TEST_NEEDED_PACKAGES_DIR"), recurse=True) packages = find_packages_to_extract(test_suites) if packages: bb.utils.mkdirhier(d.getVar("TEST_INSTALL_TMP_DIR")) bb.utils.mkdirhier(d.getVar("TEST_PACKAGED_DIR")) bb.utils.mkdirhier(d.getVar("TEST_EXTRACTED_DIR")) extract_packages(d, packages) testimage_main[vardepsexclude] += "BB_ORIGENV DATETIME" python () { if oe.types.boolean(d.getVar("TESTIMAGE_AUTO") or "False"): bb.build.addtask("testimage", "do_build", "do_image_complete", d) } inherit testsdk