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#!/usr/bin/env python
# -*- coding: utf-8 -*-
import sys
import inspect
import kpov_random_helpers
import guestfs
import os
import glob
import subprocess
import fcntl
import paramiko
import urllib2
import yaml
from test_task import http_auth
class SSHGuestFs:
def __init__(self, hostname, username, password):
return_results = {}
client = paramiko.SSHClient()
client.load_system_host_keys()
client.set_missing_host_key_policy(paramiko.AutoAddPolicy())
client.connect(hostname, username=username, password=password)
self.conn = client
def chmod(self, mode, path):
self.conn.exec_command('chmod {} "{}"'.format(mode, path))
def chown(self, owner, group, path):
self.conn.exec_command('chown {}.{} "{}"'.format(owner, group, path))
def command(self, arguments):
self.conn.exec_command(arguments)
def cp(self, src, dest):
self.conn.exec_command('cp "{}" "{}"'.format(src, dest))
def cp_a(self, src, dest):
self.conn.exec_command('cp -a "{}" "{}"'.format(src, dest))
def cp_r(self, src, dest):
self.conn.exec_command('cp -r "{}" "{}"'.format(src, dest))
def dd(self, src, dest):
self.conn.exec_command('dd if="{}" of="{}"'.format(src, dest))
def df(self):
stdin, stdout, stderr = self.conn.exec_command('df')
return stdin.read()
def download(self, remotefilename, filename):
stdin, stdout, stderr = self.conn.exec_command('dd if="{}"'.format(path))
with open(filename, 'w') as f:
data = stdin.read(4096)
while data:
f.write(data)
data = stdin.read(4096)
def download_offset (self, remotefilename, filename, offset, size):
stdin, stdout, stderr = self.conn.exec_command('dd bs=1 skip={} count={} if="{}"'.format(
offset, size ,path))
with open(filename, 'w') as f:
data = stdin.read(4096)
while data:
f.write(data)
data = stdin.read(4096)
def du(self, path):
stdin, stdout, stderr = self.conn.exec_command('du "{}"'.format(path))
return stdin.read()
def equal(self, file1, file2):
pass
def file(self, path):
stdin, stdout, stderr = self.conn.exec_command('file "{}"'.format(path))
return stdin.read()
def ln(self, target, linkname):
self.conn.exec_command('ln "{}" "{}"'.format(target, linkname))
def ln_s(self, target, linkname):
self.conn.exec_command('ln -s "{}" "{}"'.format(target, linkname))
def ln_f(self, target, linkname):
self.conn.exec_command('ln -f "{}" "{}"'.format(target, linkname))
def ln_sf(self, target, linkname):
self.conn.exec_command('ln -sf "{}" "{}"'.format(target, linkname))
def getxattrs(self, path):
pass
#path = path)
#stdin, stdout, stderr = self.conn.exec_command('du "{}"'.format(path))
#return stdin.read()
def mv (self, src, dest):
self.conn.exec_command('mv "{}" "{}"'.format(src, dest))
def mkdir (self, path):
sftp_client = self.conn.open_sftp()
sftp_client.mkdir(path)
def read_file (self, path):
sftp_client = self.conn.open_sftp()
f = sftp_client.file(path, mode='r', bufsize=-1)
s = f.read()
f.close()
return s
def readdir (self, dir):
sftp_client = self.conn.open_sftp()
return sftp_client.listdir(path)
def readlink (self, path):
stdin, stdout, stderr = self.conn.exec_command('readlink "{}"'.format(path))
return stdin.read()
def rename (self, oldpath, newpath):
return self.mv(oldpath, newpath)
def rm (self, path):
stdin, stdout, stderr = self.conn.exec_command('rm "{}"'.format(path))
def rm_rf (self, path):
stdin, stdout, stderr = self.conn.exec_command('rm -rf "{}"'.format(path))
def rmdir (self, path):
stdin, stdout, stderr = self.conn.exec_command('rmdir "{}"'.format(path))
def touch (self, path):
"""Touch acts like the touch(1) command. It can be used to
update the timestamps on a file, or, if the file does
not exist, to create a new zero-length file.
This command only works on regular files, and will fail
on other file types such as directories, symbolic links,
block special etc.
"""
self.conn.exec_command('touch "{}"'.format(path))
def setxattr (self, xattr, val, vallen, path):
pass
def write (self, path, content):
"""This call creates a file called "path". The content of
the file is the string "content" (which can contain any
8 bit data).
See also "g.write_append".
"""
sftp_client = self.conn.open_sftp()
f = sftp_client.file(path, mode='w', bufsize=-1)
f.write(content)
f.close()
def write_append (self, path, content):
"""This call appends "content" to the end of file "path".
If "path" does not exist, then a new file is created.
See also "g.write".
"""
sftp_client = self.conn.open_sftp()
f = sftp_client.file(path, mode='a', bufsize=-1)
f.write(content)
f.close()
if __name__ == '__main__':
if len(sys.argv) != 1:
print "Usage: {0}"
print "Run prepare_disks on running computers over ssh"
print "The task name and params are read from ~/.kpov_params.yaml"
yaml_config_file = os.path.expanduser("~/.kpov_params.yaml")
with open(yaml_config_file) as f:
params = yaml.load(f)
task_name = params['task_name']
try:
task_url = params['task_url']
task_name = params['task_name']
if task_url.startswith('http'):
http_auth(task_url, params['username'], params['password'])
req = urllib2.Request("{task_url}/{task_name}/task.py".format(**params))
source = urllib2.urlopen(req).read()
t = compile(source, 'task.py', 'exec')
exec(t)
except Exception as e:
print(e)
exit(1)
templates = dict()
sshguestfs_params = params.get('sshguestfs_params', dict())
task_sshguestfs_params = sshguestfs_params.get(task_name, dict())
for computer_name, computer in computers.iteritems():
comp_params = task_sshguestfs_params.get(computer_name, dict())
for k in ['hostname', 'username', 'password']:
try:
p = comp_params[k]
except:
p = raw_input("{} {}:".format(computer_name, k))
comp_params[k] = p
comp_connection = None
try:
comp_connection = SSHGuestFs(**comp_params)
task_sshguestfs_params[computer_name] = comp_params
except Exception, e:
print e
task_sshguestfs_params.pop(computer_name, None)
for disk in computer['disks']:
disk_name = disk['name']
templates[disk_name] = comp_connection
sshguestfs_params[task_name] = task_sshguestfs_params
params['sshguestfs_params'] = sshguestfs_params
with open(yaml_config_file, 'w') as f:
# print "dumping", params
yaml.dump(params, f)
prepare_disks(templates, params['task_params'][task_name])
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