ceph/qa/tasks/cephfs/mount.py
Patrick Donnelly 4729688792
Merge PR #35202 into master
* refs/pull/35202/head:
	qa: return a string via getfattr

Reviewed-by: Sidharth Anupkrishnan <sanupkri@redhat.com>
2020-06-03 07:43:08 -07:00

1119 lines
38 KiB
Python

from contextlib import contextmanager
import json
import logging
import datetime
import six
import time
from six import StringIO
from textwrap import dedent
import os
import re
from IPy import IP
from teuthology.orchestra import run
from teuthology.orchestra.run import CommandFailedError, ConnectionLostError
from tasks.cephfs.filesystem import Filesystem
import platform
log = logging.getLogger(__name__)
class CephFSMount(object):
def __init__(self, ctx, test_dir, client_id, client_remote, brxnet):
"""
:param test_dir: Global teuthology test dir
:param client_id: Client ID, the 'foo' in client.foo
:param client_remote: Remote instance for the host where client will run
"""
self.ctx = ctx
self.test_dir = test_dir
self.client_id = client_id
self.client_remote = client_remote
self.mountpoint_dir_name = 'mnt.{id}'.format(id=self.client_id)
self._mountpoint = None
self.fs = None
self.mounted = False
self._netns_name = None
self.nsid = -1
if brxnet is None:
self.ceph_brx_net = '192.168.0.0/16'
else:
self.ceph_brx_net = brxnet
self.test_files = ['a', 'b', 'c']
self.background_procs = []
def _parse_netns_name(self):
self._netns_name = '-'.join(["ceph-ns",
re.sub(r'/+', "-", self.mountpoint)])
@property
def mountpoint(self):
if self._mountpoint == None:
self._mountpoint= os.path.join(
self.test_dir, '{dir_name}'.format(dir_name=self.mountpoint_dir_name))
return self._mountpoint
@mountpoint.setter
def mountpoint(self, path):
if not isinstance(path, str):
raise RuntimeError('path should be of str type.')
self._mountpoint = path
@property
def netns_name(self):
if self._netns_name == None:
self._parse_netns_name()
return self._netns_name
@netns_name.setter
def netns_name(self, name):
if not isinstance(path, str):
raise RuntimeError('path should be of str type.')
self._netns_name = name
def is_mounted(self):
return self.mounted
def setupfs(self, name=None):
if name is None and self.fs is not None:
# Previous mount existed, reuse the old name
name = self.fs.name
self.fs = Filesystem(self.ctx, name=name)
log.info('Wait for MDS to reach steady state...')
self.fs.wait_for_daemons()
log.info('Ready to start {}...'.format(type(self).__name__))
def _bringup_network_manager_service(self):
args = ["sudo", "bash", "-c",
"systemctl start NetworkManager"]
self.client_remote.run(args=args, timeout=(5*60))
def _setup_brx_and_nat(self):
# The ip for ceph-brx should be
ip = IP(self.ceph_brx_net)[-2]
mask = self.ceph_brx_net.split('/')[1]
brd = IP(self.ceph_brx_net).broadcast()
brx = self.client_remote.run(args=['ip', 'addr'], stderr=StringIO(),
stdout=StringIO(), timeout=(5*60))
brx = re.findall(r'inet .* ceph-brx', brx.stdout.getvalue())
if brx:
# If the 'ceph-brx' already exists, then check whether
# the new net is conflicting with it
_ip, _mask = brx[0].split()[1].split('/', 1)
if _ip != "{}".format(ip) or _mask != mask:
raise RuntimeError("Conflict with existing ceph-brx {0}, new {1}/{2}".format(brx[0].split()[1], ip, mask))
# Setup the ceph-brx and always use the last valid IP
if not brx:
log.info("Setuping the 'ceph-brx' with {0}/{1}".format(ip, mask))
args = ["sudo", "bash", "-c", "ip link add name ceph-brx type bridge"]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c", "ip link set ceph-brx up"]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"ip addr add {0}/{1} brd {2} dev ceph-brx".format(ip, mask, brd)]
self.client_remote.run(args=args, timeout=(5*60))
args = "echo 1 | sudo tee /proc/sys/net/ipv4/ip_forward"
self.client_remote.run(args=args, timeout=(5*60))
# Setup the NAT
p = self.client_remote.run(args=['route'], stderr=StringIO(),
stdout=StringIO(), timeout=(5*60))
p = re.findall(r'default .*', p.stdout.getvalue())
if p == False:
raise RuntimeError("No default gw found")
gw = p[0].split()[7]
args = ["sudo", "bash", "-c",
"iptables -A FORWARD -o {0} -i ceph-brx -j ACCEPT".format(gw)]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"iptables -A FORWARD -i {0} -o ceph-brx -j ACCEPT".format(gw)]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"iptables -t nat -A POSTROUTING -s {0}/{1} -o {2} -j MASQUERADE".format(ip, mask, gw)]
self.client_remote.run(args=args, timeout=(5*60))
def _setup_netns(self):
p = self.client_remote.run(args=['ip', 'netns', 'list'],
stderr=StringIO(), stdout=StringIO(),
timeout=(5*60))
p = p.stdout.getvalue().strip()
if re.match(self.netns_name, p) is not None:
raise RuntimeError("the netns '{}' already exists!".format(self.netns_name))
# Get the netns name list
netns_list = re.findall(r'[^()\s][-.\w]+[^():\s]', p)
# Get an uniq netns id
nsid = 0
while True:
p = self.client_remote.run(args=['ip', 'netns', 'list-id'],
stderr=StringIO(), stdout=StringIO(),
timeout=(5*60))
p = re.search(r"nsid {} ".format(nsid), p.stdout.getvalue())
if p is None:
break
nsid += 1
self.nsid = nsid;
# Add one new netns and set it id
args = ["sudo", "bash", "-c",
"ip netns add {0}".format(self.netns_name)]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"ip netns set {0} {1}".format(self.netns_name, nsid)]
self.client_remote.run(args=args, timeout=(5*60))
# Get one ip address for netns
ips = IP(self.ceph_brx_net)
for ip in ips:
found = False
if ip == ips[0]:
continue
if ip == ips[-2]:
raise RuntimeError("we have ran out of the ip addresses")
for ns in netns_list:
ns_name = ns.split()[0]
args = ["sudo", "bash", "-c",
"ip netns exec {0} ip addr".format(ns_name)]
p = self.client_remote.run(args=args, stderr=StringIO(),
stdout=StringIO(), timeout=(5*60))
q = re.search("{0}".format(ip), p.stdout.getvalue())
if q is not None:
found = True
break
if found == False:
break
mask = self.ceph_brx_net.split('/')[1]
brd = IP(self.ceph_brx_net).broadcast()
log.info("Setuping the netns '{0}' with {1}/{2}".format(self.netns_name, ip, mask))
# Setup the veth interfaces
args = ["sudo", "bash", "-c",
"ip link add veth0 netns {0} type veth peer name brx.{1}".format(self.netns_name, nsid)]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"ip netns exec {0} ip addr add {1}/{2} brd {3} dev veth0".format(self.netns_name, ip, mask, brd)]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"ip netns exec {0} ip link set veth0 up".format(self.netns_name)]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"ip netns exec {0} ip link set lo up".format(self.netns_name)]
self.client_remote.run(args=args, timeout=(5*60))
brxip = IP(self.ceph_brx_net)[-2]
args = ["sudo", "bash", "-c",
"ip netns exec {0} ip route add default via {1}".format(self.netns_name, brxip)]
self.client_remote.run(args=args, timeout=(5*60))
# Bring up the brx interface and join it to 'ceph-brx'
args = ["sudo", "bash", "-c",
"ip link set brx.{0} up".format(nsid)]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"ip link set dev brx.{0} master ceph-brx".format(nsid)]
self.client_remote.run(args=args, timeout=(5*60))
def _cleanup_netns(self):
if self.nsid == -1:
return
log.info("Removing the netns '{0}'".format(self.netns_name))
# Delete the netns and the peer veth interface
args = ["sudo", "bash", "-c",
"ip link set brx.{0} down".format(self.nsid)]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"ip link delete brx.{0}".format(self.nsid)]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"ip netns delete {0}".format(self.netns_name)]
self.client_remote.run(args=args, timeout=(5*60))
self.nsid = -1
def _cleanup_brx_and_nat(self):
brx = self.client_remote.run(args=['ip', 'addr'], stderr=StringIO(),
stdout=StringIO(), timeout=(5*60))
brx = re.findall(r'inet .* ceph-brx', brx.stdout.getvalue())
if not brx:
return
# If we are the last netns, will delete the ceph-brx
args = ["sudo", "bash", "-c", "ip link show"]
p = self.client_remote.run(args=args, stdout=StringIO(),
timeout=(5*60))
_list = re.findall(r'brx\.', p.stdout.getvalue().strip())
if len(_list) != 0:
return
log.info("Removing the 'ceph-brx'")
args = ["sudo", "bash", "-c",
"ip link set ceph-brx down"]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"ip link delete ceph-brx"]
self.client_remote.run(args=args, timeout=(5*60))
# Drop the iptables NAT rules
ip = IP(self.ceph_brx_net)[-2]
mask = self.ceph_brx_net.split('/')[1]
p = self.client_remote.run(args=['route'], stderr=StringIO(),
stdout=StringIO(), timeout=(5*60))
p = re.findall(r'default .*', p.stdout.getvalue())
if p == False:
raise RuntimeError("No default gw found")
gw = p[0].split()[7]
args = ["sudo", "bash", "-c",
"iptables -D FORWARD -o {0} -i ceph-brx -j ACCEPT".format(gw)]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"iptables -D FORWARD -i {0} -o ceph-brx -j ACCEPT".format(gw)]
self.client_remote.run(args=args, timeout=(5*60))
args = ["sudo", "bash", "-c",
"iptables -t nat -D POSTROUTING -s {0}/{1} -o {2} -j MASQUERADE".format(ip, mask, gw)]
self.client_remote.run(args=args, timeout=(5*60))
def setup_netns(self):
"""
Setup the netns for the mountpoint.
"""
log.info("Setting the '{0}' netns for '{1}'".format(self._netns_name, self.mountpoint))
self._setup_brx_and_nat()
self._setup_netns()
def cleanup_netns(self):
"""
Cleanup the netns for the mountpoint.
"""
log.info("Cleaning the '{0}' netns for '{1}'".format(self._netns_name, self.mountpoint))
self._cleanup_netns()
self._cleanup_brx_and_nat()
def suspend_netns(self):
"""
Suspend the netns veth interface.
"""
if self.nsid == -1:
return
log.info("Suspending the '{0}' netns for '{1}'".format(self._netns_name, self.mountpoint))
args = ["sudo", "bash", "-c",
"ip link set brx.{0} down".format(self.nsid)]
self.client_remote.run(args=args, timeout=(5*60))
def resume_netns(self):
"""
Resume the netns veth interface.
"""
if self.nsid == -1:
return
log.info("Resuming the '{0}' netns for '{1}'".format(self._netns_name, self.mountpoint))
args = ["sudo", "bash", "-c",
"ip link set brx.{0} up".format(self.nsid)]
self.client_remote.run(args=args, timeout=(5*60))
def mount(self, mount_path=None, mount_fs_name=None, mountpoint=None, mount_options=[]):
raise NotImplementedError()
def mount_wait(self, mount_path=None, mount_fs_name=None, mountpoint=None, mount_options=[]):
self.mount(mount_path=mount_path, mount_fs_name=mount_fs_name, mountpoint=mountpoint,
mount_options=mount_options)
self.wait_until_mounted()
def umount(self):
raise NotImplementedError()
def umount_wait(self, force=False, require_clean=False):
"""
:param force: Expect that the mount will not shutdown cleanly: kill
it hard.
:param require_clean: Wait for the Ceph client associated with the
mount (e.g. ceph-fuse) to terminate, and
raise if it doesn't do so cleanly.
:return:
"""
raise NotImplementedError()
def kill(self):
"""
Suspend the netns veth interface to make the client disconnected
from the ceph cluster
"""
log.info('Killing connection on {0}...'.format(self.client_remote.name))
self.suspend_netns()
def kill_cleanup(self):
"""
Follow up ``kill`` to get to a clean unmounted state.
"""
log.info('Cleaning up killed connection on {0}'.format(self.client_remote.name))
self.umount_wait(force=True)
def cleanup(self):
"""
Remove the mount point.
Prerequisite: the client is not mounted.
"""
stderr = StringIO()
try:
self.client_remote.run(
args=[
'rmdir',
'--',
self.mountpoint,
],
cwd=self.test_dir,
stderr=stderr,
timeout=(60*5),
check_status=False,
)
except CommandFailedError:
if "No such file or directory" in stderr.getvalue():
pass
else:
raise
self.cleanup_netns()
def wait_until_mounted(self):
raise NotImplementedError()
def get_keyring_path(self):
return '/etc/ceph/ceph.client.{id}.keyring'.format(id=self.client_id)
@property
def config_path(self):
"""
Path to ceph.conf: override this if you're not a normal systemwide ceph install
:return: stringv
"""
return "/etc/ceph/ceph.conf"
@contextmanager
def mounted_wait(self):
"""
A context manager, from an initially unmounted state, to mount
this, yield, and then unmount and clean up.
"""
self.mount()
self.wait_until_mounted()
try:
yield
finally:
self.umount_wait()
def is_blacklisted(self):
addr = self.get_global_addr()
blacklist = json.loads(self.fs.mon_manager.raw_cluster_cmd("osd", "blacklist", "ls", "--format=json"))
for b in blacklist:
if addr == b["addr"]:
return True
return False
def create_file(self, filename='testfile', dirname=None, user=None,
check_status=True):
assert(self.is_mounted())
if not os.path.isabs(filename):
if dirname:
if os.path.isabs(dirname):
path = os.path.join(dirname, filename)
else:
path = os.path.join(self.mountpoint, dirname, filename)
else:
path = os.path.join(self.mountpoint, filename)
else:
path = filename
if user:
args = ['sudo', '-u', user, '-s', '/bin/bash', '-c', 'touch ' + path]
else:
args = 'touch ' + path
return self.client_remote.run(args=args, check_status=check_status)
def create_files(self):
assert(self.is_mounted())
for suffix in self.test_files:
log.info("Creating file {0}".format(suffix))
self.client_remote.run(args=[
'sudo', 'touch', os.path.join(self.mountpoint, suffix)
])
def test_create_file(self, filename='testfile', dirname=None, user=None,
check_status=True):
return self.create_file(filename=filename, dirname=dirname, user=user,
check_status=False)
def check_files(self):
assert(self.is_mounted())
for suffix in self.test_files:
log.info("Checking file {0}".format(suffix))
r = self.client_remote.run(args=[
'sudo', 'ls', os.path.join(self.mountpoint, suffix)
], check_status=False)
if r.exitstatus != 0:
raise RuntimeError("Expected file {0} not found".format(suffix))
def create_destroy(self):
assert(self.is_mounted())
filename = "{0} {1}".format(datetime.datetime.now(), self.client_id)
log.debug("Creating test file {0}".format(filename))
self.client_remote.run(args=[
'sudo', 'touch', os.path.join(self.mountpoint, filename)
])
log.debug("Deleting test file {0}".format(filename))
self.client_remote.run(args=[
'sudo', 'rm', '-f', os.path.join(self.mountpoint, filename)
])
def _run_python(self, pyscript, py_version='python3'):
return self.client_remote.run(
args=['sudo', 'adjust-ulimits', 'daemon-helper', 'kill',
py_version, '-c', pyscript], wait=False, stdin=run.PIPE,
stdout=StringIO())
def run_python(self, pyscript, py_version='python3'):
p = self._run_python(pyscript, py_version)
p.wait()
return six.ensure_str(p.stdout.getvalue().strip())
def run_shell(self, args, wait=True, stdin=None, check_status=True,
cwd=None, omit_sudo=True):
args = args.split() if isinstance(args, str) else args
# XXX: all commands ran with CephFS mount as CWD must be executed with
# superuser privileges when tests are being run using teuthology.
if args[0] != 'sudo':
args.insert(0, 'sudo')
if not cwd:
cwd = self.mountpoint
return self.client_remote.run(args=args, stdin=stdin, wait=wait,
stdout=StringIO(), stderr=StringIO(),
cwd=cwd, check_status=check_status)
def run_as_user(self, args, user, wait=True, stdin=None,
check_status=True, cwd=None):
if isinstance(args, str):
args = 'sudo -u %s -s /bin/bash -c %s' % (user, args)
elif isinstance(args, list):
cmdlist = args
cmd = ''
for i in cmdlist:
cmd = cmd + i + ' '
args = ['sudo', '-u', user, '-s', '/bin/bash', '-c']
args.append(cmd)
if not cwd:
cwd = self.mountpoint
return self.client_remote.run(args=args, wait=wait, stdin=stdin,
stdout=StringIO(), stderr=StringIO(),
check_status=check_status, cwd=cwd)
def run_as_root(self, args, wait=True, stdin=None, check_status=True,
cwd=None):
if isinstance(args, str):
args = 'sudo ' + args
if isinstance(args, list):
args.insert(0, 'sudo')
if not cwd:
cwd = self.mountpoint
return self.client_remote.run(args=args, wait=wait, stdin=stdin,
stdout=StringIO(), stderr=StringIO(),
check_status=check_status, cwd=cwd)
def _verify(self, proc, retval=None, errmsg=None):
if retval:
msg = ('expected return value: {}\nreceived return value: '
'{}\n'.format(retval, proc.returncode))
assert proc.returncode == retval, msg
if errmsg:
stderr = proc.stderr.getvalue().lower()
msg = ('didn\'t find given string in stderr -\nexpected string: '
'{}\nreceived error message: {}\nnote: received error '
'message is converted to lowercase'.format(errmsg, stderr))
assert errmsg in stderr, msg
def negtestcmd(self, args, retval=None, errmsg=None, stdin=None,
cwd=None, wait=True):
"""
Conduct a negative test for the given command.
retval and errmsg are parameters to confirm the cause of command
failure.
"""
proc = self.run_shell(args=args, wait=wait, stdin=stdin, cwd=cwd,
check_status=False)
self._verify(proc, retval, errmsg)
return proc
def negtestcmd_as_user(self, args, user, retval=None, errmsg=None,
stdin=None, cwd=None, wait=True):
proc = self.run_as_user(args=args, user=user, wait=wait, stdin=stdin,
cwd=cwd, check_status=False)
self._verify(proc, retval, errmsg)
return proc
def negtestcmd_as_root(self, args, retval=None, errmsg=None, stdin=None,
cwd=None, wait=True):
proc = self.run_as_root(args=args, wait=wait, stdin=stdin, cwd=cwd,
check_status=False)
self._verify(proc, retval, errmsg)
return proc
def open_no_data(self, basename):
"""
A pure metadata operation
"""
assert(self.is_mounted())
path = os.path.join(self.mountpoint, basename)
p = self._run_python(dedent(
"""
f = open("{path}", 'w')
""".format(path=path)
))
p.wait()
def open_background(self, basename="background_file", write=True):
"""
Open a file for writing, then block such that the client
will hold a capability.
Don't return until the remote process has got as far as opening
the file, then return the RemoteProcess instance.
"""
assert(self.is_mounted())
path = os.path.join(self.mountpoint, basename)
if write:
pyscript = dedent("""
import time
with open("{path}", 'w') as f:
f.write('content')
f.flush()
f.write('content2')
while True:
time.sleep(1)
""").format(path=path)
else:
pyscript = dedent("""
import time
with open("{path}", 'r') as f:
while True:
time.sleep(1)
""").format(path=path)
rproc = self._run_python(pyscript)
self.background_procs.append(rproc)
# This wait would not be sufficient if the file had already
# existed, but it's simple and in practice users of open_background
# are not using it on existing files.
self.wait_for_visible(basename)
return rproc
def wait_for_dir_empty(self, dirname, timeout=30):
i = 0
dirpath = os.path.join(self.mountpoint, dirname)
while i < timeout:
nr_entries = int(self.getfattr(dirpath, "ceph.dir.entries"))
if nr_entries == 0:
log.debug("Directory {0} seen empty from {1} after {2}s ".format(
dirname, self.client_id, i))
return
else:
time.sleep(1)
i += 1
raise RuntimeError("Timed out after {0}s waiting for {1} to become empty from {2}".format(
i, dirname, self.client_id))
def wait_for_visible(self, basename="background_file", timeout=30):
i = 0
while i < timeout:
r = self.client_remote.run(args=[
'sudo', 'ls', os.path.join(self.mountpoint, basename)
], check_status=False)
if r.exitstatus == 0:
log.debug("File {0} became visible from {1} after {2}s".format(
basename, self.client_id, i))
return
else:
time.sleep(1)
i += 1
raise RuntimeError("Timed out after {0}s waiting for {1} to become visible from {2}".format(
i, basename, self.client_id))
def lock_background(self, basename="background_file", do_flock=True):
"""
Open and lock a files for writing, hold the lock in a background process
"""
assert(self.is_mounted())
path = os.path.join(self.mountpoint, basename)
script_builder = """
import time
import fcntl
import struct"""
if do_flock:
script_builder += """
f1 = open("{path}-1", 'w')
fcntl.flock(f1, fcntl.LOCK_EX | fcntl.LOCK_NB)"""
script_builder += """
f2 = open("{path}-2", 'w')
lockdata = struct.pack('hhllhh', fcntl.F_WRLCK, 0, 0, 0, 0, 0)
fcntl.fcntl(f2, fcntl.F_SETLK, lockdata)
while True:
time.sleep(1)
"""
pyscript = dedent(script_builder).format(path=path)
log.info("lock_background file {0}".format(basename))
rproc = self._run_python(pyscript)
self.background_procs.append(rproc)
return rproc
def lock_and_release(self, basename="background_file"):
assert(self.is_mounted())
path = os.path.join(self.mountpoint, basename)
script = """
import time
import fcntl
import struct
f1 = open("{path}-1", 'w')
fcntl.flock(f1, fcntl.LOCK_EX)
f2 = open("{path}-2", 'w')
lockdata = struct.pack('hhllhh', fcntl.F_WRLCK, 0, 0, 0, 0, 0)
fcntl.fcntl(f2, fcntl.F_SETLK, lockdata)
"""
pyscript = dedent(script).format(path=path)
log.info("lock_and_release file {0}".format(basename))
return self._run_python(pyscript)
def check_filelock(self, basename="background_file", do_flock=True):
assert(self.is_mounted())
path = os.path.join(self.mountpoint, basename)
script_builder = """
import fcntl
import errno
import struct"""
if do_flock:
script_builder += """
f1 = open("{path}-1", 'r')
try:
fcntl.flock(f1, fcntl.LOCK_EX | fcntl.LOCK_NB)
except IOError as e:
if e.errno == errno.EAGAIN:
pass
else:
raise RuntimeError("flock on file {path}-1 not found")"""
script_builder += """
f2 = open("{path}-2", 'r')
try:
lockdata = struct.pack('hhllhh', fcntl.F_WRLCK, 0, 0, 0, 0, 0)
fcntl.fcntl(f2, fcntl.F_SETLK, lockdata)
except IOError as e:
if e.errno == errno.EAGAIN:
pass
else:
raise RuntimeError("posix lock on file {path}-2 not found")
"""
pyscript = dedent(script_builder).format(path=path)
log.info("check lock on file {0}".format(basename))
self.client_remote.run(args=[
'sudo', 'python3', '-c', pyscript
])
def write_background(self, basename="background_file", loop=False):
"""
Open a file for writing, complete as soon as you can
:param basename:
:return:
"""
assert(self.is_mounted())
path = os.path.join(self.mountpoint, basename)
pyscript = dedent("""
import os
import time
fd = os.open("{path}", os.O_RDWR | os.O_CREAT, 0o644)
try:
while True:
os.write(fd, b'content')
time.sleep(1)
if not {loop}:
break
except IOError as e:
pass
os.close(fd)
""").format(path=path, loop=str(loop))
rproc = self._run_python(pyscript)
self.background_procs.append(rproc)
return rproc
def write_n_mb(self, filename, n_mb, seek=0, wait=True):
"""
Write the requested number of megabytes to a file
"""
assert(self.is_mounted())
return self.run_shell(["dd", "if=/dev/urandom", "of={0}".format(filename),
"bs=1M", "conv=fdatasync",
"count={0}".format(int(n_mb)),
"seek={0}".format(int(seek))
], wait=wait)
def write_test_pattern(self, filename, size):
log.info("Writing {0} bytes to {1}".format(size, filename))
return self.run_python(dedent("""
import zlib
path = "{path}"
with open(path, 'w') as f:
for i in range(0, {size}):
val = zlib.crc32(str(i).encode('utf-8')) & 7
f.write(chr(val))
""".format(
path=os.path.join(self.mountpoint, filename),
size=size
)))
def validate_test_pattern(self, filename, size):
log.info("Validating {0} bytes from {1}".format(size, filename))
return self.run_python(dedent("""
import zlib
path = "{path}"
with open(path, 'r') as f:
bytes = f.read()
if len(bytes) != {size}:
raise RuntimeError("Bad length {{0}} vs. expected {{1}}".format(
len(bytes), {size}
))
for i, b in enumerate(bytes):
val = zlib.crc32(str(i).encode('utf-8')) & 7
if b != chr(val):
raise RuntimeError("Bad data at offset {{0}}".format(i))
""".format(
path=os.path.join(self.mountpoint, filename),
size=size
)))
def open_n_background(self, fs_path, count):
"""
Open N files for writing, hold them open in a background process
:param fs_path: Path relative to CephFS root, e.g. "foo/bar"
:return: a RemoteProcess
"""
assert(self.is_mounted())
abs_path = os.path.join(self.mountpoint, fs_path)
pyscript = dedent("""
import sys
import time
import os
n = {count}
abs_path = "{abs_path}"
if not os.path.exists(os.path.dirname(abs_path)):
os.makedirs(os.path.dirname(abs_path))
handles = []
for i in range(0, n):
fname = "{{0}}_{{1}}".format(abs_path, i)
handles.append(open(fname, 'w'))
while True:
time.sleep(1)
""").format(abs_path=abs_path, count=count)
rproc = self._run_python(pyscript)
self.background_procs.append(rproc)
return rproc
def create_n_files(self, fs_path, count, sync=False):
assert(self.is_mounted())
abs_path = os.path.join(self.mountpoint, fs_path)
pyscript = dedent("""
import sys
import time
import os
n = {count}
abs_path = "{abs_path}"
if not os.path.exists(os.path.dirname(abs_path)):
os.makedirs(os.path.dirname(abs_path))
for i in range(0, n):
fname = "{{0}}_{{1}}".format(abs_path, i)
with open(fname, 'w') as f:
f.write('content')
if {sync}:
f.flush()
os.fsync(f.fileno())
""").format(abs_path=abs_path, count=count, sync=str(sync))
self.run_python(pyscript)
def teardown(self):
for p in self.background_procs:
log.info("Terminating background process")
self._kill_background(p)
self.background_procs = []
def _kill_background(self, p):
if p.stdin:
p.stdin.close()
try:
p.wait()
except (CommandFailedError, ConnectionLostError):
pass
def kill_background(self, p):
"""
For a process that was returned by one of the _background member functions,
kill it hard.
"""
self._kill_background(p)
self.background_procs.remove(p)
def send_signal(self, signal):
signal = signal.lower()
if signal.lower() not in ['sigstop', 'sigcont', 'sigterm', 'sigkill']:
raise NotImplementedError
self.client_remote.run(args=['sudo', 'kill', '-{0}'.format(signal),
self.client_pid], omit_sudo=False)
def get_global_id(self):
raise NotImplementedError()
def get_global_inst(self):
raise NotImplementedError()
def get_global_addr(self):
raise NotImplementedError()
def get_osd_epoch(self):
raise NotImplementedError()
def lstat(self, fs_path, follow_symlinks=False, wait=True):
return self.stat(fs_path, follow_symlinks=False, wait=True)
def stat(self, fs_path, follow_symlinks=True, wait=True):
"""
stat a file, and return the result as a dictionary like this:
{
"st_ctime": 1414161137.0,
"st_mtime": 1414161137.0,
"st_nlink": 33,
"st_gid": 0,
"st_dev": 16777218,
"st_size": 1190,
"st_ino": 2,
"st_uid": 0,
"st_mode": 16877,
"st_atime": 1431520593.0
}
Raises exception on absent file.
"""
abs_path = os.path.join(self.mountpoint, fs_path)
if follow_symlinks:
stat_call = "os.stat('" + abs_path + "')"
else:
stat_call = "os.lstat('" + abs_path + "')"
pyscript = dedent("""
import os
import stat
import json
import sys
try:
s = {stat_call}
except OSError as e:
sys.exit(e.errno)
attrs = ["st_mode", "st_ino", "st_dev", "st_nlink", "st_uid", "st_gid", "st_size", "st_atime", "st_mtime", "st_ctime"]
print(json.dumps(
dict([(a, getattr(s, a)) for a in attrs]),
indent=2))
""").format(stat_call=stat_call)
proc = self._run_python(pyscript)
if wait:
proc.wait()
return json.loads(proc.stdout.getvalue().strip())
else:
return proc
def touch(self, fs_path):
"""
Create a dentry if it doesn't already exist. This python
implementation exists because the usual command line tool doesn't
pass through error codes like EIO.
:param fs_path:
:return:
"""
abs_path = os.path.join(self.mountpoint, fs_path)
pyscript = dedent("""
import sys
import errno
try:
f = open("{path}", "w")
f.close()
except IOError as e:
sys.exit(errno.EIO)
""").format(path=abs_path)
proc = self._run_python(pyscript)
proc.wait()
def path_to_ino(self, fs_path, follow_symlinks=True):
abs_path = os.path.join(self.mountpoint, fs_path)
if follow_symlinks:
pyscript = dedent("""
import os
import stat
print(os.stat("{path}").st_ino)
""").format(path=abs_path)
else:
pyscript = dedent("""
import os
import stat
print(os.lstat("{path}").st_ino)
""").format(path=abs_path)
proc = self._run_python(pyscript)
proc.wait()
return int(proc.stdout.getvalue().strip())
def path_to_nlink(self, fs_path):
abs_path = os.path.join(self.mountpoint, fs_path)
pyscript = dedent("""
import os
import stat
print(os.stat("{path}").st_nlink)
""").format(path=abs_path)
proc = self._run_python(pyscript)
proc.wait()
return int(proc.stdout.getvalue().strip())
def ls(self, path=None):
"""
Wrap ls: return a list of strings
"""
cmd = ["ls"]
if path:
cmd.append(path)
ls_text = self.run_shell(cmd).stdout.getvalue().strip()
if ls_text:
return ls_text.split("\n")
else:
# Special case because otherwise split on empty string
# gives you [''] instead of []
return []
def setfattr(self, path, key, val):
"""
Wrap setfattr.
:param path: relative to mount point
:param key: xattr name
:param val: xattr value
:return: None
"""
self.run_shell(["setfattr", "-n", key, "-v", val, path])
def getfattr(self, path, attr):
"""
Wrap getfattr: return the values of a named xattr on one file, or
None if the attribute is not found.
:return: a string
"""
p = self.run_shell(["getfattr", "--only-values", "-n", attr, path], wait=False)
try:
p.wait()
except CommandFailedError as e:
if e.exitstatus == 1 and "No such attribute" in p.stderr.getvalue():
return None
else:
raise
return str(p.stdout.getvalue())
def df(self):
"""
Wrap df: return a dict of usage fields in bytes
"""
p = self.run_shell(["df", "-B1", "."])
lines = p.stdout.getvalue().strip().split("\n")
fs, total, used, avail = lines[1].split()[:4]
log.warning(lines)
return {
"total": int(total),
"used": int(used),
"available": int(avail)
}