def test_from_parameters_image(mocker):
job = mocker.MagicMock()
assert DockerRun.from_parameters({"image": "foo"}, job).image == "foo"
assert not DockerRun.from_parameters({"image": "foo"}, job).__local__
assert DockerRun.from_parameters({
"image": "foo",
"local": True
}, job).__local__
def run(self, connection, max_end_time):
job_id = self.job.job_id
script = ["#!/bin/sh", "exec 2>&1", "set -ex"]
# Export data generated during run of the Pipeline like NFS settings
if self.job.device:
for key in self.job.device["dynamic_data"]:
script.append("export %s='%s'" %
(key, self.job.device["dynamic_data"][key]))
script = script + self.steps
script = "\n".join(script) + "\n"
scriptfile = self.path / "postprocess.sh"
scriptfile.write_text(script)
scriptfile.chmod(0o755)
docker = DockerRun.from_parameters(self.docker_parameters, self.job)
docker.add_device("/dev/kvm", skip_missing=True)
docker.bind_mount(self.path, LAVA_DOWNLOADS)
docker.workdir(LAVA_DOWNLOADS)
docker.run(f"{LAVA_DOWNLOADS}/postprocess.sh", action=self)
return connection
def test_from_parameters_name_network(mocker):
job = mocker.MagicMock()
job.job_id = "123"
docker_run = DockerRun.from_parameters(
{
"image": "foo",
"container_name": "foocontainer",
"network_from": "othercontainer",
},
job,
)
assert docker_run.__name__ == "foocontainer-lava-123"
assert docker_run.__network__ == "othercontainer"
def get_command_prefix(self):
docker = DockerRun.from_parameters(self.params)
docker.add_docker_options(*self.docker_options)
docker.add_docker_run_options(*self.docker_run_options)
for device in self.__get_device_nodes__():
docker.add_device(device)
if not self.docker_options:
for f in self.copied_files:
docker.bind_mount(f)
return docker.cmdline()
def run(self, connection, max_end_time):
job_id = self.job.job_id
script = ["#!/bin/sh", "exec 2>&1", "set -ex"] + self.steps
script = "\n".join(script) + "\n"
scriptfile = self.path / "postprocess.sh"
scriptfile.write_text(script)
scriptfile.chmod(0o755)
docker = DockerRun.from_parameters(self.docker_parameters)
docker.add_device("/dev/kvm", skip_missing=True)
docker.bind_mount(self.path, LAVA_DOWNLOADS)
docker.hostname("lava")
docker.workdir(LAVA_DOWNLOADS)
docker.run(f"{LAVA_DOWNLOADS}/postprocess.sh", action=self)
return connection
def get_raw_version(self, architecture):
if "docker" in self.parameters:
docker = DockerRun.from_parameters(self.parameters["docker"],
self.job)
docker.run(*shlex.split("qemu-system-%s --version" %
self.get_qemu_arch(architecture)),
action=self)
return True
ver_strs = subprocess.check_output(
("qemu-system-%s" % architecture, "--version"))
# line is QEMU emulator version xxxx
ver_str = ver_strs.split()[3].decode("utf-8", errors="replace")
arch_str = (subprocess.check_output(
("uname", "-m")).strip().decode("utf-8", errors="replace"))
self.qemu_data = {
"qemu_version": ver_str,
"host_arch": arch_str,
"job_arch": architecture,
}
self.logger.info(
"qemu, installed at version: %s, host architecture: %s", ver_str,
arch_str)
return True
def run(self, connection, max_end_time):
"""
CommandRunner expects a pexpect.spawn connection which is the return value
of target.device.power_on executed by boot in the old dispatcher.
In the new pipeline, the pexpect.spawn is a ShellCommand and the
connection is a ShellSession. CommandRunner inside the ShellSession
turns the ShellCommand into a runner which the ShellSession uses via ShellSession.run()
to run commands issued *after* the device has booted.
pexpect.spawn is one of the raw_connection objects for a Connection class.
"""
if connection:
ns_connection = self.get_namespace_data(
action="shared", label="shared", key="connection", deepcopy=False
)
if connection == ns_connection:
connection.finalise()
self.sub_command = self.base_sub_command.copy()
# Generate the sub command
substitutions = {}
for label in self.get_namespace_keys("download-action"):
if label in ["offset", "available_loops", "uefi", "nfsrootfs"]:
continue
image_arg = self.get_namespace_data(
action="download-action", label=label, key="image_arg"
)
action_arg = self.get_namespace_data(
action="download-action", label=label, key="file"
)
if image_arg is not None:
substitutions["{%s}" % label] = action_arg
substitutions["{NFS_SERVER_IP}"] = dispatcher_ip(
self.job.parameters["dispatcher"], "nfs"
)
self.sub_command.extend(substitute(self.commands, substitutions))
uefi_dir = self.get_namespace_data(
action="deployimages", label="image", key="uefi_dir"
)
if uefi_dir:
self.sub_command.extend(["-L", uefi_dir, "-monitor", "none"])
# initialise the first Connection object, a command line shell into the running QEMU.
self.results = self.qemu_data
guest = self.get_namespace_data(
action="apply-overlay-guest", label="guest", key="filename"
)
# check for NFS
if "qemu-nfs" == self.parameters["method"]:
self.logger.debug("Adding NFS arguments to kernel command line.")
root_dir = self.get_namespace_data(
action="extract-rootfs", label="file", key="nfsroot"
)
substitutions["{NFSROOTFS}"] = root_dir
params = self.methods["qemu-nfs"]["parameters"]["append"]
# console=ttyAMA0 root=/dev/nfs nfsroot=10.3.2.1:/var/lib/lava/dispatcher/tmp/dirname,tcp,hard,intr ip=dhcp
append = [
"console=%s" % params["console"],
"root=/dev/nfs",
"%s rw" % substitute([params["nfsrootargs"]], substitutions)[0],
"%s" % params["ipargs"],
]
self.sub_command.append("--append")
self.sub_command.append('"%s"' % " ".join(append))
elif guest:
self.logger.info("Extending command line for qcow2 test overlay")
# interface is ide by default in qemu
interface = self.job.device["actions"]["deploy"]["methods"]["image"][
"parameters"
]["guest"].get("interface", "ide")
driveid = self.job.device["actions"]["deploy"]["methods"]["image"][
"parameters"
]["guest"].get("driveid", "lavatest")
self.sub_command.append(
"-drive format=qcow2,file=%s,media=disk,if=%s,id=%s"
% (os.path.realpath(guest), interface, driveid)
)
# push the mount operation to the test shell pre-command to be run
# before the test shell tries to execute.
shell_precommand_list = []
mountpoint = self.get_namespace_data(
action="test", label="results", key="lava_test_results_dir"
)
uuid = "/dev/disk/by-uuid/%s" % self.get_namespace_data(
action="apply-overlay-guest", label="guest", key="UUID"
)
shell_precommand_list.append("mkdir %s" % mountpoint)
# prepare_guestfs always uses ext2
shell_precommand_list.append("mount %s -t ext2 %s" % (uuid, mountpoint))
# debug line to show the effect of the mount operation
# also allows time for kernel messages from the mount operation to be processed.
shell_precommand_list.append("ls -la %s/bin/lava-test-runner" % mountpoint)
self.set_namespace_data(
action="test",
label="lava-test-shell",
key="pre-command-list",
value=shell_precommand_list,
)
if "docker" in self.parameters:
docker = DockerRun.from_parameters(self.parameters["docker"])
docker.interactive()
docker.tty()
docker.bind_mount(DISPATCHER_DOWNLOAD_DIR)
docker.add_device("/dev/kvm", skip_missing=True)
args = []
if "binary" in self.parameters["docker"]:
args.append(self.parameters["docker"]["binary"])
self.logger.info("Pulling docker image")
docker.prepare(action=self)
self.sub_command[0] = " ".join(docker.cmdline(*args))
self.logger.info("Boot command: %s", " ".join(self.sub_command))
shell = self.shell_class(
" ".join(self.sub_command), self.timeout, logger=self.logger
)
if shell.exitstatus:
raise JobError(
"%s command exited %d: %s"
% (self.sub_command, shell.exitstatus, shell.readlines())
)
self.logger.debug("started a shell command")
shell_connection = self.session_class(self.job, shell)
shell_connection = super().run(shell_connection, max_end_time)
self.set_namespace_data(
action="shared", label="shared", key="connection", value=shell_connection
)
return shell_connection
def test_from_parameters_suffix(mocker):
job = mocker.MagicMock()
job.job_id = "123"
docker_run = DockerRun.from_parameters({"image": "foo"}, job)
assert docker_run.__suffix__ == "-lava-123"
def run(self, connection, max_end_time):
# obtain lava overlay
# start container
# create USB device mapping to container
# connect to container, and run lava-test-shell over it
location = self.get_namespace_data(action="test",
label="shared",
key="location")
overlay = self.get_namespace_data(
action="test", label="results",
key="lava_test_results_dir").strip("/")
container = "lava-docker-test-shell-%s-%s" % (self.job.job_id,
self.level)
docker = DockerRun.from_parameters(self.parameters["docker"])
docker.prepare()
docker.bind_mount(os.path.join(location, overlay), "/" + overlay)
namespace = self.parameters.get("downloads-namespace",
self.parameters.get("namespace"))
if namespace:
downloads_dir = pathlib.Path(
self.job.tmp_dir) / "downloads" / namespace
if downloads_dir.exists():
docker.bind_mount(downloads_dir, LAVA_DOWNLOADS)
for bind_mount in self.test_docker_bind_mounts:
read_only = True if len(bind_mount) == 2 else False
docker.bind_mount(bind_mount[0], bind_mount[1], read_only)
docker.interactive()
docker.tty()
docker.hostname("lava")
docker.name(container)
docker.environment("PS1", "docker-test-shell:$ ")
docker_cmd = docker.cmdline("bash", "--norc", "-i")
cmd = " ".join([shlex.quote(s) for s in docker_cmd])
self.logger.debug("Starting docker test shell container: %s" % cmd)
shell = ShellCommand(cmd, self.timeout, logger=self.logger)
shell_connection = ShellSession(self.job, shell)
shell_connection.prompt_str = "docker-test-shell:"
self.__set_connection__(shell_connection)
self.add_device_container_mappings(container, "docker")
devices = get_udev_devices(device_info=self.device_info,
logger=self.logger,
required=False)
docker.wait()
# share all the devices as there isn't a 1:1 relationship between
# the trigger and actual sharing of the devices
for dev in devices:
if not os.path.islink(dev):
self.trigger_share_device_with_container(dev)
for dev in devices:
docker.wait_file(dev)
try:
super().run(shell_connection, max_end_time)
finally:
# finish the container
shell_connection.finalise()
docker.destroy()
# return the original connection untouched
self.__set_connection__(connection)
return connection
def validate(self):
docker = DockerRun.from_parameters(self.params, self.action.job)
docker.prepare(self.action)
def key(self):
docker = DockerRun.from_parameters(self.params, self.action.job)
return docker.image
def key(self):
docker = DockerRun.from_parameters(self.params)
return docker.image
def run(self, connection, max_end_time):
# obtain lava overlay
# start container
# create USB device mapping to container
# connect to container, and run lava-test-shell over it
location = self.get_namespace_data(action="test",
label="shared",
key="location")
overlay = self.get_namespace_data(
action="test", label="results",
key="lava_test_results_dir").strip("/")
container = "lava-docker-test-shell-%s-%s" % (self.job.job_id,
self.level)
docker = DockerRun.from_parameters(self.parameters["docker"], self.job)
docker.prepare()
docker.bind_mount(os.path.join(location, overlay), "/" + overlay)
docker_method_conf = (self.job.device["actions"].get("test", {}).get(
"methods", {}).get("docker", {}))
# Preprocess docker option list, to better support partial
# overriding of them via device dict:
# 1. Filter out None, to make it easier to template
# YAML syntactic lists with Jinja2:
# '- {{ some_opt_from_device_dict }}'
# (if not default, will be set to None).
# 2. Flatten sublists, `- ['--opt1', '--opt2']`.
def preproc_opts(opts):
res = []
for o in opts:
if o is None:
continue
elif isinstance(o, list):
res += o
else:
res.append(o)
return res
if "global_options" in docker_method_conf:
docker.add_docker_options(
*preproc_opts(docker_method_conf["global_options"]))
if "options" in docker_method_conf:
docker.add_docker_run_options(
*preproc_opts(docker_method_conf["options"]))
namespace = self.parameters.get("downloads-namespace",
self.parameters.get("namespace"))
if namespace:
downloads_dir = pathlib.Path(
self.job.tmp_dir) / "downloads" / namespace
if downloads_dir.exists():
docker.bind_mount(downloads_dir, LAVA_DOWNLOADS)
for bind_mount in self.test_docker_bind_mounts:
read_only = True if len(bind_mount) == 2 else False
docker.bind_mount(bind_mount[0], bind_mount[1], read_only)
docker.interactive()
docker.tty()
docker.name(container)
docker.environment("PS1", "docker-test-shell:$ ")
docker_cmd = docker.cmdline("bash", "--norc", "-i")
cmd = " ".join([shlex.quote(s) for s in docker_cmd])
self.logger.debug("Starting docker test shell container: %s" % cmd)
shell = ShellCommand(cmd, self.timeout, logger=self.logger)
shell_connection = ShellSession(self.job, shell)
shell_connection.prompt_str = "docker-test-shell:"
self.__set_connection__(shell_connection)
self.add_device_container_mappings(container, "docker")
devices = get_udev_devices(device_info=self.device_info,
logger=self.logger,
required=False)
docker.wait(shell)
# share all the devices as there isn't a 1:1 relationship between
# the trigger and actual sharing of the devices
for dev in devices:
if not os.path.islink(dev):
self.trigger_share_device_with_container(dev)
for dev in devices:
docker.wait_file(dev)
try:
super().run(shell_connection, max_end_time)
finally:
# finish the container
shell_connection.finalise()
docker.destroy()
# return the original connection untouched
self.__set_connection__(connection)
return connection
def test_from_parameters():
assert DockerRun.from_parameters({"image": "foo"}).image == "foo"
assert not DockerRun.from_parameters({"image": "foo"}).__local__
assert DockerRun.from_parameters({"image": "foo", "local": True}).__local__
