#!/usr/bin/python3
-import serial
-
-import re
-from time import sleep
-import sys
import libvirt
-import xml.etree.ElementTree as ET
-
-import inspect
import os
import configparser
+from disk import disk
+
class log():
def __init__(self, log_level):
self.log_level = log_level
def error(self, string):
print("ERROR: {}".format(string))
-class libvirt_con():
- def __init__(self, uri):
- self.log = log(4)
- self.uri = uri
- self.connection = None
-
- def get_domain_from_name(self, name):
- dom = self.con.lookupByName(name)
-
- if dom == None:
- raise BaseException
- return dom
-
- @property
- def con(self):
- if self.connection == None:
- try:
- self.connection = libvirt.open(self.uri)
- except BaseException as error:
- self.log.error("Could not connect to: {}".format(self.uri))
-
- self.log.debug("Connected to: {}".format(self.uri))
- return self.connection
-
- return self.connection
-
-
-class vm():
- def __init__(self, vm_xml_file, snapshot_xml_file, image, root_uid):
- self.log = log(4)
- self.con = libvirt_con("qemu:///system")
- try:
- with open(vm_xml_file) as fobj:
- self.vm_xml = fobj.read()
- except FileNotFoundError as error:
- self.log.error("No such file: {}".format(vm_xml_file))
-
- try:
- with open(snapshot_xml_file) as fobj:
- self.snapshot_xml = fobj.read()
- except FileNotFoundError as error:
- self.log.error("No such file: {}".format(snapshot_xml_file))
-
- self.image = image
-
- if not os.path.isfile(self.image):
- self.log.error("No such file: {}".format(self.image))
-
- self.root_uid = root_uid
-
- def define(self):
- self.dom = self.con.con.defineXML(self.vm_xml)
- if self.dom == None:
- self.log.error("Could not define VM")
- raise BaseException
-
- def start(self):
- if self.dom.create() < 0:
- self.log.error("Could not start VM")
- raise BaseException
-
- def shutdown(self):
- if self.is_running():
- if self.dom.shutdown() < 0:
- self.log.error("Could not shutdown VM")
- raise BaseException
- else:
- self.log.error("Domain is not running")
-
- def undefine(self):
- self.dom.undefine()
-
- def create_snapshot(self):
-
- self.snapshot = self.dom.snapshotCreateXML(self.snapshot_xml)
-
- if not self.snapshot:
- self.log.error("Could not create snapshot")
- raise BaseException
-
- def revert_snapshot(self):
- print(inspect.getmembers(self.dom, predicate=inspect.ismethod))
- self.dom.revertToSnapshot(self.snapshot)
- self.snapshot.delete()
-
- def is_running(self):
-
- state, reason = self.dom.state()
-
- if state == libvirt.VIR_DOMAIN_RUNNING:
- return True
- else:
- return False
-
- def get_serial_device(self):
-
- if not self.is_running():
- raise BaseException
-
- xml_root = ET.fromstring(self.dom.XMLDesc(0))
-
- elem = xml_root.find("./devices/serial/source")
- return elem.get("path")
-
- def check_is_booted_up(self):
- serial_con = connection(self.get_serial_device())
-
- serial_con.write("\n")
- # This will block till the domain is booted up
- serial_con.read(1)
-
- #serial_con.close()
-
- def login(self, username, password):
- try:
- self.serial_con = connection(self.get_serial_device(), username="root")
- self.serial_con.login("25814@root")
- except BaseException as e:
- self.log.error("Could not connect to the domain via serial console")
-
- def cmd(self, cmd):
- return self.serial_con.command(cmd)
-
-
-class connection():
- def __init__(self, device, username=None):
- self.buffer = b""
- self.back_at_prompt_pattern = None
- self.username = username
- self.log = log(1)
- self.con = serial.Serial(device)
-
- def read(self, size=1):
- if len(self.buffer) >= size:
- # throw away first size bytes in buffer
- data = self.buffer[:size]
- # Set the buffer to the non used bytes
- self.buffer = self.buffer[size:]
- return data
- else:
- data = self.buffer
- # Set the size to the value we have to read now
- size = size - len(self.buffer)
- # Set the buffer empty
- self.buffer = b""
- return data + self.con.read(size)
-
- def peek(self, size=1):
- if len(self.buffer) <= size:
- self.buffer += self.con.read(size=size - len(self.buffer))
-
- return self.buffer[:size]
-
- def readline(self):
- self.log.debug(self.buffer)
- self.buffer = self.buffer + self.con.read(self.con.in_waiting)
- if b"\n" in self.buffer:
- size = self.buffer.index(b"\n") + 1
- self.log.debug("We have a whole line in the buffer")
- self.log.debug(self.buffer)
- self.log.debug("We split at {}".format(size))
- data = self.buffer[:size]
- self.buffer = self.buffer[size:]
- self.log.debug(data)
- self.log.debug(self.buffer)
- return data
-
- data = self.buffer
- self.buffer = b""
- return data + self.con.readline()
-
- def back_at_prompt(self):
- data = self.peek()
- if not data == b"[":
- return False
-
- # We need to use self.in_waiting because with self.con.in_waiting we get
- # not the complete string
- size = len(self.buffer) + self.in_waiting
- data = self.peek(size)
-
-
- if self.back_at_prompt_pattern == None:
- #self.back_at_prompt_pattern = r"^\[{}@.+\]#".format(self.username)
- self.back_at_prompt_pattern = re.compile(r"^\[{}@.+\]#".format(self.username), re.MULTILINE)
-
- if self.back_at_prompt_pattern.search(data.decode()):
- return True
- else:
- return False
-
- def log_console_line(self, line):
- self.log.debug("Get in function log_console_line()")
- sys.stdout.write(line)
-
- @property
- def in_waiting(self):
- in_waiting_before = 0
- sleep(0.5)
-
- while in_waiting_before != self.con.in_waiting:
- in_waiting_before = self.con.in_waiting
- sleep(0.5)
-
- return self.con.in_waiting
-
-
- def readline2(self, pattern=None):
- string = ""
- string2 = b""
- if pattern:
- pattern = re.compile(pattern)
-
- while 1:
- char = self.con.read(1)
- string = string + char.decode("utf-8")
- string2 = string2 + char
- #print(char)
- print(char.decode("utf-8"), end="")
-
- #print(string2)
- if pattern and pattern.match(string):
- #print("get here1")
- #print(string2)
- return {"string" : string, "return-code" : 1}
-
- if char == b"\n":
- #print(char)
- #print(string2)
- #print("get here2")
- return {"return-code" : 0}
-
- def check_logged_in(self, username):
- pattern = "^\[" + username + "@.+\]#"
- data = self.readline(pattern=pattern)
- if data["return-code"] == 1:
- print("We are logged in")
- return True
- else:
- print("We are not logged in")
- return False
-
- def login(self, password):
- if self.username == None:
- self.log.error("Username cannot be blank")
- return False
-
- # Hit enter to see what we get
- self.con.write(b'\n')
- # We get two new lines \r\n ?
- data = self.readline()
- self.log_console_line(data.decode())
-
-
- if self.back_at_prompt():
- self.log.debug("We are already logged in.")
- return True
-
- # Read all line till we get login:
- while 1:
- data = self.peek()
- if not data.decode() == "l":
- self.log.debug("We get no l at the start")
- self.log_console_line(self.readline().decode())
-
- # We need to use self.in_waiting because with self.con.in_waiting we get
- # not the complete string
- size = len(self.buffer) + self.in_waiting
- data = self.peek(size)
-
- pattern = r"^.*login: "
- pattern = re.compile(pattern)
-
- if pattern.search(data.decode()):
- break
- else:
- self.log.debug("The pattern does not match")
- self.log_console_line(self.readline().decode())
-
- # We can login
- string = "{}\n".format(self.username)
- self.con.write(string.encode())
- self.con.flush()
- # read the login out of the buffer
- data = self.readline()
- self.log.debug("This is the login:{}".format(data))
- self.log_console_line(data.decode())
-
- # We need to wait her till we get the full string "Password:"
- #This is useless but self.in_waiting will wait the correct amount of time
- size = self.in_waiting
-
- string = "{}\n".format(password)
- self.con.write(string.encode())
- self.con.flush()
- # Print the 'Password:' line
- data = self.readline()
- self.log_console_line(data.decode())
-
- while not self.back_at_prompt():
- # This will fail if the login failed so we need to look for the failed keyword
- data = self.readline()
- self.log_console_line(data.decode())
-
- return True
-
- def write(self, string):
- self.log.debug(string)
- self.con.write(string.encode())
- self.con.flush()
-
- def command(self, command):
- self.write("{}\n".format(command))
-
- # We need to read out the prompt for this command first
- # If we do not do this we will break the loop immediately
- # because the prompt for this command is still in the buffer
- data = self.readline()
- self.log_console_line(data.decode())
-
- while not self.back_at_prompt():
- data = self.readline()
- self.log_console_line(data.decode())
-
-
-# A class which define and undefine a virtual network based on an xml file
-class network():
- def __init__(self, path):
- self.log = log(4)
- self.log.debug("Path is: {}".format(path))
-
-# Should read the test, check if the syntax are valid
-# and return tuples with the ( host, command ) structure
-class recipe():
- def __init__(self, path):
- self.log = log(4)
- self.recipe_file = path
- if not os.path.isfile(self.recipe_file):
- self.log.error("No such file: {}".format(self.recipe_file))
-
- try:
- with open(self.recipe_file) as fobj:
- self.raw_recipe = fobj.readlines()
- except FileNotFoundError as error:
- self.log.error("No such file: {}".format(vm_xml_file))
-
- for line in self.raw_recipe:
- print(line)
-
-
class test():
def __init__(self, path):
self.log = log(4)
self.config.read(self.settings_file)
self.name = self.config["DEFAULT"]["Name"]
self.description = self.config["DEFAULT"]["Description"]
+ self.copy_to = self.config["DEFAULT"]["Copy_to"]
+ self.copy_from = self.config["DEFAULT"]["Copy_from"]
+ self.copy_from = self.copy_from.split(",")
+
+ tmp = []
+ for file in self.copy_from:
+ file = file.strip()
+ file = os.path.normpath(self.path + "/" + file)
+ tmp.append(file)
+
+ self.copy_from = tmp
self.virtual_environ_name = self.config["VIRTUAL_ENVIRONMENT"]["Name"]
self.virtual_environ_path = self.config["VIRTUAL_ENVIRONMENT"]["Path"]
self.virtual_machines = self.virtual_environ.get_machines()
def virtual_environ_start(self):
- pass
-
- def load_recipe(self):
- pass
-
- def run_recipe():
- pass
+ for name in self.virtual_environ.network_names:
+ self.virtual_networks[name].define()
+ self.virtual_networks[name].start()
- def virtual_environ_stop():
- pass
+ for name in self.virtual_environ.machine_names:
+ self.virtual_machines[name].define()
+ self.virtual_machines[name].create_snapshot()
+ self.virtual_machines[name].copy_in(self.copy_from, self.copy_to)
+ self.virtual_machines[name].start()
+ self.log.debug("Try to login on all machines")
+ for name in self.virtual_environ.machine_names:
+ self.virtual_machines[name].login()
-# Should return all vms and networks in a list
-# and should provide the path to the necessary xml files
-class virtual_environ():
- def __init__(self, path):
- self.log = log(4)
+ def load_recipe(self):
try:
- self.path = os.path.abspath(path)
+ self.recipe = recipe(self.recipe_file)
+ for line in self.recipe.recipe:
+ self.log.debug(line)
except BaseException as e:
- self.log.error("Could not get absolute path")
-
- self.log.debug(self.path)
-
- self.settings_file = "{}/settings".format(self.path)
- if not os.path.isfile(self.settings_file):
- self.log.error("No such file: {}".format(self.settings_file))
-
- self.log.debug(self.settings_file)
- self.config = configparser.ConfigParser()
- self.config.read(self.settings_file)
- self.name = self.config["DEFAULT"]["name"]
- self.machines_string = self.config["DEFAULT"]["machines"]
- self.networks_string = self.config["DEFAULT"]["networks"]
-
- self.machines = []
- for machine in self.machines_string.split(","):
- self.machines.append(machine.strip())
-
- self.networks = []
- for network in self.networks_string.split(","):
- self.networks.append(network.strip())
-
- self.log.debug(self.machines)
- self.log.debug(self.networks)
-
- def get_networks(self):
- networks = {}
- for _network in self.networks:
- self.log.debug(_network)
- networks.setdefault(_network, network(os.path.normpath(self.path + "/" + self.config[_network]["xml_file"])))
- return networks
-
- def get_machines(self):
- machines = {}
- for _machine in self.machines:
- self.log.debug(_machine)
- machines.setdefault(_machine, vm(
- os.path.normpath(self.path + "/" + self.config[_machine]["xml_file"]),
- os.path.normpath(self.path + "/" + self.config[_machine]["snapshot_xml_file"])))
-
- return machines
-
+ self.log.error("Failed to load recipe")
+ raise e
+
+ def run_recipe(self):
+ for line in self.recipe.recipe:
+ return_value = self.virtual_machines[line[0]].cmd(line[2])
+ self.log.debug("Return value is: {}".format(return_value))
+ if return_value != "0" and line[1] == "":
+ self.log.error("Failed to execute command '{}' on {}, return code: {}".format(line[2],line[0], return_value))
+ return False
+ elif return_value == "0" and line[1] == "!":
+ self.log.error("Succeded to execute command '{}' on {}, return code: {}".format(line[2],line[0],return_value))
+ return False
+ else:
+ self.log.debug("Command '{}' on {} returned with: {}".format(line[2],line[0],return_value))
-if __name__ == "__main__":
- import argparse
+ def virtual_environ_stop(self):
+ for name in self.virtual_environ.machine_names:
+ self.virtual_machines[name].shutdown()
+ self.virtual_machines[name].revert_snapshot()
+ self.virtual_machines[name].undefine()
- parser = argparse.ArgumentParser()
+ for name in self.virtual_environ.network_names:
+ self.virtual_networks[name].undefine()
- parser.add_argument("-d", "--directory", dest="dir")
- args = parser.parse_args()
- _recipe = recipe("/home/jonatan/python-testing-kvm/test/recipe")
- currenttest = test(args.dir)
- currenttest.read_settings()
- currenttest.virtual_environ_setup()
\ No newline at end of file