#!/usr/bin/env python # Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. # -*- coding: utf-8 -*- """CloudStack Python utility library""" import sys, os, subprocess, errno, re, time, glob import urllib2 import xml.dom.minidom import logging import socket # exit() error constants E_GENERIC= 1 E_NOKVM = 2 E_NODEFROUTE = 3 E_DHCP = 4 E_NOPERSISTENTNET = 5 E_NETRECONFIGFAILED = 6 E_VIRTRECONFIGFAILED = 7 E_FWRECONFIGFAILED = 8 E_AGENTRECONFIGFAILED = 9 E_AGENTFAILEDTOSTART = 10 E_NOFQDN = 11 E_SELINUXENABLED = 12 try: E_USAGE = os.EX_USAGE except AttributeError: E_USAGE = 64 E_NEEDSMANUALINTERVENTION = 13 E_INTERRUPTED = 14 E_SETUPFAILED = 15 E_UNHANDLEDEXCEPTION = 16 E_MISSINGDEP = 17 Unknown = 0 Fedora = 1 CentOS = 2 Ubuntu = 3 RHEL6 = 4 IPV4 = 4 IPV6 = 6 #=================== DISTRIBUTION DETECTION ================= if os.path.exists("/etc/fedora-release"): distro = Fedora elif os.path.exists("/etc/centos-release"): distro = CentOS elif os.path.exists("/etc/redhat-release"): version = file("/etc/redhat-release").readline() if version.find("Red Hat Enterprise Linux Server release 6") != -1: distro = RHEL6 elif version.find("CentOS") != -1: distro = CentOS else: distro = CentOS elif os.path.exists("/etc/legal") and "Ubuntu" in file("/etc/legal").read(-1): distro = Ubuntu else: distro = Unknown logFileName=None # ================== LIBRARY UTILITY CODE============= def setLogFile(logFile): global logFileName logFileName=logFile def read_properties(propfile): if not hasattr(propfile,"read"): propfile = file(propfile) properties = propfile.read().splitlines() properties = [ s.strip() for s in properties ] properties = [ s for s in properties if s and not s.startswith("#") and not s.startswith(";") ] #[ logging.debug("Valid config file line: %s",s) for s in properties ] proppairs = [ s.split("=",1) for s in properties ] return dict(proppairs) def stderr(msgfmt,*args): """Print a message to stderr, optionally interpolating the arguments into it""" msgfmt += "\n" if logFileName != None: sys.stderr = open(logFileName, 'a+') if args: sys.stderr.write(msgfmt%args) else: sys.stderr.write(msgfmt) def exit(errno=E_GENERIC,message=None,*args): """Exit with an error status code, printing a message to stderr if specified""" if message: stderr(message,*args) sys.exit(errno) def resolve(host,port): return [ (x[4][0],len(x[4])+2) for x in socket.getaddrinfo(host,port,socket.AF_UNSPEC,socket.SOCK_STREAM, 0, socket.AI_PASSIVE) ] def resolves_to_ipv6(host,port): return resolve(host,port)[0][1] == IPV6 ###add this to Python 2.4, patching the subprocess module at runtime if hasattr(subprocess,"check_call"): from subprocess import CalledProcessError, check_call else: class CalledProcessError(Exception): def __init__(self, returncode, cmd): self.returncode = returncode ; self.cmd = cmd def __str__(self): return "Command '%s' returned non-zero exit status %d" % (self.cmd, self.returncode) subprocess.CalledProcessError = CalledProcessError def check_call(*popenargs, **kwargs): retcode = subprocess.call(*popenargs, **kwargs) cmd = kwargs.get("args") if cmd is None: cmd = popenargs[0] if retcode: raise subprocess.CalledProcessError(retcode, cmd) return retcode subprocess.check_call = check_call # python 2.4 does not have this try: any = any all = all except NameError: def any(sequence): for i in sequence: if i: return True return False def all(sequence): for i in sequence: if not i: return False return True class Command: """This class simulates a shell command""" def __init__(self,name,parent=None): self.__name = name self.__parent = parent def __getattr__(self,name): if name == "_print": name = "print" return Command(name,self) def __call__(self,*args,**kwargs): cmd = self.__get_recursive_name() + list(args) #print " ",cmd kwargs = dict(kwargs) if "stdout" not in kwargs: kwargs["stdout"] = subprocess.PIPE if "stderr" not in kwargs: kwargs["stderr"] = subprocess.PIPE popen = subprocess.Popen(cmd,**kwargs) m = popen.communicate() ret = popen.wait() if ret: e = CalledProcessError(ret,cmd) e.stdout,e.stderr = m raise e class CommandOutput: def __init__(self,stdout,stderr): self.stdout = stdout self.stderr = stderr return CommandOutput(*m) def __lt__(self,other): cmd = self.__get_recursive_name() #print " ",cmd,"<",other popen = subprocess.Popen(cmd,stdin=subprocess.PIPE,stdout=subprocess.PIPE,stderr=subprocess.PIPE) m = popen.communicate(other) ret = popen.wait() if ret: e = CalledProcessError(ret,cmd) e.stdout,e.stderr = m raise e class CommandOutput: def __init__(self,stdout,stderr): self.stdout = stdout self.stderr = stderr return CommandOutput(*m) def __get_recursive_name(self,sep=None): m = self l = [] while m is not None: l.append(m.__name) m = m.__parent l.reverse() if sep: return sep.join(l) else: return l def __str__(self): return ''%self.__get_recursive_name(sep=" ") def __repr__(self): return self.__str__() kvmok = Command("kvm-ok") getenforce = Command("/usr/sbin/getenforce") ip = Command("ip") service = Command("service") chkconfig = Command("chkconfig") updatercd = Command("update-rc.d") ufw = Command("ufw") iptables = Command("iptables") iptablessave = Command("iptables-save") augtool = Command("augtool") ifconfig = Command("ifconfig") ifdown = Command("ifdown") ifup = Command("ifup") brctl = Command("brctl") uuidgen = Command("uuidgen") def is_service_running(servicename): try: o = service(servicename,"status") if distro is Ubuntu: # status in ubuntu does not signal service status via return code if "start/running" in o.stdout: return True return False else: # retcode 0, service running return True except CalledProcessError,e: # retcode nonzero, service not running return False def stop_service(servicename,force=False): # This function is idempotent. N number of calls have the same result as N+1 number of calls. if is_service_running(servicename) or force: service(servicename,"stop",stdout=None,stderr=None) def disable_service(servicename): # Stops AND disables the service stop_service(servicename) if distro is Ubuntu: updatercd("-f",servicename,"remove",stdout=None,stderr=None) else: chkconfig("--del",servicename,stdout=None,stderr=None) def start_service(servicename,force=False): # This function is idempotent unless force is True. N number of calls have the same result as N+1 number of calls. if not is_service_running(servicename) or force: service(servicename,"start",stdout=None,stderr=None) def enable_service(servicename,forcestart=False): # Stops AND disables the service if distro is Ubuntu: updatercd("-f",servicename,"remove",stdout=None,stderr=None) updatercd("-f",servicename,"start","2","3","4","5",".",stdout=None,stderr=None) else: chkconfig("--add",servicename,stdout=None,stderr=None) chkconfig("--level","345",servicename,"on",stdout=None,stderr=None) start_service(servicename,force=forcestart) def replace_line(f,startswith,stanza,always_add=False): lines = [ s.strip() for s in file(f).readlines() ] newlines = [] replaced = False for line in lines: if line.startswith(startswith): newlines.append(stanza) replaced = True else: newlines.append(line) if not replaced and always_add: newlines.append(stanza) newlines = [ s + '\n' for s in newlines ] file(f,"w").writelines(newlines) def replace_or_add_line(f,startswith,stanza): return replace_line(f,startswith,stanza,always_add=True) # ==================================== CHECK FUNCTIONS ========================== # If they return without exception, it's okay. If they raise a CheckFailed exception, that means a condition # (generallly one that needs administrator intervention) was detected. class CheckFailed(Exception): pass #check function def check_hostname(): """If the hostname is a non-fqdn, fail with CalledProcessError. Else return 0.""" try: check_call(["hostname",'--fqdn']) except CalledProcessError: raise CheckFailed("This machine does not have an FQDN (fully-qualified domain name) for a hostname") #check function def check_kvm(): if distro in (Fedora,CentOS,RHEL6): if os.path.exists("/dev/kvm"): return True raise CheckFailed("KVM is not correctly installed on this system, or support for it is not enabled in the BIOS") else: try: kvmok() return True except CalledProcessError: raise CheckFailed("KVM is not correctly installed on this system, or support for it is not enabled in the BIOS") except OSError,e: if e.errno is errno.ENOENT: raise CheckFailed("KVM is not correctly installed on this system, or support for it is not enabled in the BIOS") raise return True raise AssertionError, "check_kvm() should have never reached this part" def check_cgroups(): return glob.glob("/*/cpu.shares") #check function def check_selinux(): if distro not in [Fedora,CentOS,RHEL6]: return # no selinux outside of those enforcing = False config_enforcing = False try: output = getenforce().stdout.strip() if "nforcing" in output: enforcing = True if any ( [ s.startswith("SELINUX=enforcing") for s in file("/etc/selinux/config").readlines() ] ): config_enforcing = True else: config_enforcing = False except (IOError,OSError),e: if e.errno == 2: pass else: raise CheckFailed("An unknown error (%s) took place while checking for SELinux"%str(e)) if enforcing: raise CheckFailed('''SELinux is set to enforcing. There are two options: 1> Set it permissive in /etc/selinux/config, then reboot the machine. 2> Type 'setenforce Permissive' in commandline, after which you can run this program again. We strongly suggest you doing the option 1 that makes sure SELinux goes into permissive after system reboot.\n''') if config_enforcing: print "WARNING: We detected that your SELinux is not configured in permissive. to make sure cloudstack won't block by \ SELinux after system reboot, we strongly suggest you setting it in permissive in /etc/selinux/config, then reboot the machine." def preflight_checks(do_check_kvm=True): if distro is Ubuntu: preflight_checks = [ (check_hostname,"Checking hostname"), ] else: preflight_checks = [ (check_hostname,"Checking hostname"), (check_selinux,"Checking if SELinux is disabled"), ] #preflight_checks.append( (check_cgroups,"Checking if the control groups /cgroup filesystem is mounted") ) if do_check_kvm: preflight_checks.append( (check_kvm,"Checking for KVM") ) return preflight_checks # ========================== CONFIGURATION TASKS ================================ # A Task is a function that runs within the context of its run() function that runs the function execute(), which does several things, reporting back to the caller as it goes with the use of yield # the done() method ought to return true if the task has run in the past # the execute() method must implement the configuration act itself # run() wraps the output of execute() within a Starting taskname and a Completed taskname message # tasks have a name class TaskFailed(Exception): pass #def __init__(self,code,msg): #Exception.__init__(self,msg) #self.code = code class ConfigTask: name = "generic config task" autoMode=False def __init__(self): pass def done(self): """Returns true if the config task has already been done in the past, false if it hasn't""" return False def execute(self): """Executes the configuration task. Must not be run if test() returned true. Must yield strings that describe the steps in the task. Raises TaskFailed if the task failed at some step. """ def run (self): stderr("Starting %s"%self.name) it = self.execute() if not it: pass # not a yielding iterable else: for msg in it: stderr(msg) stderr("Completed %s"%self.name) def setAutoMode(self, autoMode): self.autoMode = autoMode def isAutoMode(self): return self.autoMode # ============== these are some configuration tasks ================== class SetupNetworking(ConfigTask): name = "network setup" def __init__(self,brname, pubNic, prvNic): ConfigTask.__init__(self) self.brname = brname self.pubNic = pubNic self.prvNic = prvNic self.runtime_state_changed = False self.was_nm_service_running = None self.was_net_service_running = None if distro in (Fedora, CentOS, RHEL6): self.nmservice = 'NetworkManager' self.netservice = 'network' else: self.nmservice = 'network-manager' self.netservice = 'networking' def done(self): try: alreadysetup = False if distro in (Fedora,CentOS, RHEL6): if self.pubNic != None: alreadysetup = alreadysetup or augtool._print("/files/etc/sysconfig/network-scripts/ifcfg-%s"%self.pubNic).stdout.strip() if self.prvNic != None: alreadysetup = alreadysetup or augtool._print("/files/etc/sysconfig/network-scripts/ifcfg-%s"%self.prvNic).stdout.strip() if not alreadysetup: alreadysetup = augtool._print("/files/etc/sysconfig/network-scripts/ifcfg-%s"%self.brname).stdout.strip() else: if self.pubNic != None: alreadysetup = alreadysetup or augtool._print("/files/etc/network/interfaces/iface",self.pubNic).stdout.strip() if self.prvNic != None: alreadysetup = alreadysetup or augtool._print("/files/etc/network/interfaces/iface",self.prvNic).stdout.strip() if not alreadysetup: alreadysetup = augtool.match("/files/etc/network/interfaces/iface",self.brname).stdout.strip() return alreadysetup except OSError,e: if e.errno is 2: raise TaskFailed("augtool has not been properly installed on this system") raise def restore_state(self): if not self.runtime_state_changed: return try: o = ifconfig(self.brname) bridge_exists = True except CalledProcessError,e: print e.stdout + e.stderr bridge_exists = False if bridge_exists: ifconfig(self.brname,"0.0.0.0") if hasattr(self,"old_net_device"): ifdown(self.old_net_device) ifup(self.old_net_device) try: ifdown(self.brname) except CalledProcessError: pass try: ifconfig(self.brname,"down") except CalledProcessError: pass try: brctl("delbr",self.brname) except CalledProcessError: pass try: ifdown("--force",self.brname) except CalledProcessError: pass if self.was_net_service_running is None: # we do nothing pass elif self.was_net_service_running == False: stop_service(self.netservice,force=True) time.sleep(1) else: # we altered service configuration stop_service(self.netservice,force=True) time.sleep(1) try: start_service(self.netservice,force=True) except CalledProcessError,e: if e.returncode == 1: pass else: raise time.sleep(1) if self.was_nm_service_running is None: # we do nothing pass elif self.was_nm_service_running == False: stop_service(self.nmservice,force=True) time.sleep(1) else: # we altered service configuration stop_service(self.nmservice,force=True) time.sleep(1) start_service(self.nmservice,force=True) time.sleep(1) self.runtime_state_changed = False def execute(self): yield "Determining default route" routes = ip.route().stdout.splitlines() defaultroute = [ x for x in routes if x.startswith("default") ] if not defaultroute: raise TaskFailed("Your network configuration does not have a default route") dev = defaultroute[0].split()[4] yield "Default route assigned to device %s"%dev self.old_net_device = dev if distro in (Fedora, CentOS, RHEL6): inconfigfile = "/".join(augtool.match("/files/etc/sysconfig/network-scripts/*/DEVICE",dev).stdout.strip().split("/")[:-1]) if not inconfigfile: raise TaskFailed("Device %s has not been set up in /etc/sysconfig/network-scripts"%dev) pathtoconfigfile = inconfigfile[6:] if distro in (Fedora, CentOS, RHEL6): automatic = augtool.match("%s/ONBOOT"%inconfigfile,"yes").stdout.strip() else: automatic = augtool.match("/files/etc/network/interfaces/auto/*/",dev).stdout.strip() if not automatic: if distro is Fedora: raise TaskFailed("Device %s has not been set up in %s as automatic on boot"%dev,pathtoconfigfile) else: raise TaskFailed("Device %s has not been set up in /etc/network/interfaces as automatic on boot"%dev) if distro not in (Fedora , CentOS, RHEL6): inconfigfile = augtool.match("/files/etc/network/interfaces/iface",dev).stdout.strip() if not inconfigfile: raise TaskFailed("Device %s has not been set up in /etc/network/interfaces"%dev) if distro in (Fedora, CentOS, RHEL6): isstatic = augtool.match(inconfigfile + "/BOOTPROTO","none").stdout.strip() if not isstatic: isstatic = augtool.match(inconfigfile + "/BOOTPROTO","static").stdout.strip() else: isstatic = augtool.match(inconfigfile + "/method","static").stdout.strip() if not isstatic: if distro in (Fedora, CentOS, RHEL6): raise TaskFailed("Device %s has not been set up as a static device in %s"%(dev,pathtoconfigfile)) else: raise TaskFailed("Device %s has not been set up as a static device in /etc/network/interfaces"%dev) if is_service_running(self.nmservice): self.was_nm_service_running = True yield "Stopping NetworkManager to avoid automatic network reconfiguration" disable_service(self.nmservice) else: self.was_nm_service_running = False if is_service_running(self.netservice): self.was_net_service_running = True else: self.was_net_service_running = False yield "Creating Cloud bridging device and making device %s member of this bridge"%dev if distro in (Fedora, CentOS, RHEL6): ifcfgtext = file(pathtoconfigfile).read() newf = "/etc/sysconfig/network-scripts/ifcfg-%s"%self.brname #def restore(): #try: os.unlink(newf) #except OSError,e: #if errno == 2: pass #raise #try: file(pathtoconfigfile,"w").write(ifcfgtext) #except OSError,e: raise f = file(newf,"w") ; f.write(ifcfgtext) ; f.flush() ; f.close() innewconfigfile = "/files" + newf script = """set %s/DEVICE %s set %s/NAME %s set %s/BRIDGE_PORTS %s set %s/TYPE Bridge rm %s/HWADDR rm %s/UUID rm %s/HWADDR rm %s/IPADDR rm %s/DEFROUTE rm %s/NETMASK rm %s/GATEWAY rm %s/BROADCAST rm %s/NETWORK set %s/BRIDGE %s save"""%(innewconfigfile,self.brname,innewconfigfile,self.brname,innewconfigfile,dev, innewconfigfile,innewconfigfile,innewconfigfile,innewconfigfile, inconfigfile,inconfigfile,inconfigfile,inconfigfile,inconfigfile,inconfigfile, inconfigfile,self.brname) yield "Executing the following reconfiguration script:\n%s"%script try: returned = augtool < script if "Saved 2 file" not in returned.stdout: print returned.stdout + returned.stderr #restore() raise TaskFailed("Network reconfiguration failed.") else: yield "Network reconfiguration complete" except CalledProcessError,e: #restore() print e.stdout + e.stderr raise TaskFailed("Network reconfiguration failed") else: # Not fedora backup = file("/etc/network/interfaces").read(-1) #restore = lambda: file("/etc/network/interfaces","w").write(backup) script = """set %s %s set %s %s set %s/bridge_ports %s save"""%(automatic,self.brname,inconfigfile,self.brname,inconfigfile,dev) yield "Executing the following reconfiguration script:\n%s"%script try: returned = augtool < script if "Saved 1 file" not in returned.stdout: #restore() raise TaskFailed("Network reconfiguration failed.") else: yield "Network reconfiguration complete" except CalledProcessError,e: #restore() print e.stdout + e.stderr raise TaskFailed("Network reconfiguration failed") yield "We are going to restart network services now, to make the network changes take effect. Hit ENTER when you are ready." if self.isAutoMode(): pass else: raw_input() # if we reach here, then if something goes wrong we should attempt to revert the runinng state # if not, then no point self.runtime_state_changed = True yield "Enabling and restarting non-NetworkManager networking" if distro is Ubuntu: ifup(self.brname,stdout=None,stderr=None) stop_service(self.netservice) try: enable_service(self.netservice,forcestart=True) except CalledProcessError,e: if e.returncode == 1: pass else: raise yield "Verifying that the bridge is up" try: o = ifconfig(self.brname) except CalledProcessError,e: print e.stdout + e.stderr raise TaskFailed("The bridge could not be set up properly") yield "Networking restart done" class SetupCgConfig(ConfigTask): name = "control groups configuration" def done(self): try: return "group virt" in file("/etc/cgconfig.conf","r").read(-1) except IOError,e: if e.errno is 2: raise TaskFailed("cgconfig has not been properly installed on this system") raise def execute(self): cgconfig = file("/etc/cgconfig.conf","r").read(-1) cgconfig = cgconfig + """ group virt { cpu { cpu.shares = 9216; } } """ file("/etc/cgconfig.conf","w").write(cgconfig) stop_service("cgconfig") enable_service("cgconfig",forcestart=True) class SetupCgRules(ConfigTask): name = "control group rules setup" cfgline = "root:/usr/sbin/libvirtd cpu virt/" def done(self): try: return self.cfgline in file("/etc/cgrules.conf","r").read(-1) except IOError,e: if e.errno is 2: raise TaskFailed("cgrulesd has not been properly installed on this system") raise def execute(self): cgrules = file("/etc/cgrules.conf","r").read(-1) cgrules = cgrules + "\n" + self.cfgline + "\n" file("/etc/cgrules.conf","w").write(cgrules) stop_service("cgred") enable_service("cgred") class SetupSecurityDriver(ConfigTask): name = "security driver setup" cfgline = "security_driver = \"none\"" filename = "/etc/libvirt/qemu.conf" def done(self): try: return self.cfgline in file(self.filename,"r").read(-1) except IOError,e: if e.errno is 2: raise TaskFailed("qemu has not been properly installed on this system") raise def execute(self): libvirtqemu = file(self.filename,"r").read(-1) libvirtqemu = libvirtqemu + "\n" + self.cfgline + "\n" file("/etc/libvirt/qemu.conf","w").write(libvirtqemu) class SetupLibvirt(ConfigTask): name = "libvirt setup" cfgline = "export CGROUP_DAEMON='cpu:/virt'" def done(self): try: if distro in (Fedora,CentOS, RHEL6): libvirtfile = "/etc/sysconfig/libvirtd" elif distro is Ubuntu: libvirtfile = "/etc/default/libvirt-bin" else: raise AssertionError, "We should not reach this" return self.cfgline in file(libvirtfile,"r").read(-1) except IOError,e: if e.errno is 2: raise TaskFailed("libvirt has not been properly installed on this system") raise def execute(self): if distro in (Fedora,CentOS, RHEL6): libvirtfile = "/etc/sysconfig/libvirtd" elif distro is Ubuntu: libvirtfile = "/etc/default/libvirt-bin" else: raise AssertionError, "We should not reach this" libvirtbin = file(libvirtfile,"r").read(-1) libvirtbin = libvirtbin + "\n" + self.cfgline + "\n" file(libvirtfile,"w").write(libvirtbin) if distro in (CentOS, Fedora, RHEL6): svc = "libvirtd" else: svc = "libvirt-bin" stop_service(svc) enable_service(svc) class SetupLiveMigration(ConfigTask): name = "live migration setup" stanzas = ( "listen_tcp=1", 'tcp_port="16509"', 'auth_tcp="none"', "listen_tls=0", ) def done(self): try: lines = [ s.strip() for s in file("/etc/libvirt/libvirtd.conf").readlines() ] if all( [ stanza in lines for stanza in self.stanzas ] ): return True except IOError,e: if e.errno is 2: raise TaskFailed("libvirt has not been properly installed on this system") raise def execute(self): for stanza in self.stanzas: startswith = stanza.split("=")[0] + '=' replace_or_add_line("/etc/libvirt/libvirtd.conf",startswith,stanza) if distro in (Fedora, RHEL6): replace_or_add_line("/etc/sysconfig/libvirtd","LIBVIRTD_ARGS=","LIBVIRTD_ARGS=-l") elif distro is Ubuntu: if os.path.exists("/etc/init/libvirt-bin.conf"): replace_line("/etc/init/libvirt-bin.conf", "exec /usr/sbin/libvirtd","exec /usr/sbin/libvirtd -d -l") else: replace_or_add_line("/etc/default/libvirt-bin","libvirtd_opts=","libvirtd_opts='-l -d'") else: raise AssertionError("Unsupported distribution") if distro in (CentOS, Fedora, RHEL6): svc = "libvirtd" else: svc = "libvirt-bin" stop_service(svc) enable_service(svc) class SetupRequiredServices(ConfigTask): name = "required services setup" def done(self): if distro in (Fedora, RHEL6): nfsrelated = "rpcbind nfslock" elif distro is CentOS: nfsrelated = "portmap nfslock" else: return True return all( [ is_service_running(svc) for svc in nfsrelated.split() ] ) def execute(self): if distro in (Fedora, RHEL6): nfsrelated = "rpcbind nfslock" elif distro is CentOS: nfsrelated = "portmap nfslock" else: raise AssertionError("Unsupported distribution") for svc in nfsrelated.split(): enable_service(svc) class SetupFirewall(ConfigTask): name = "firewall setup" def done(self): if distro in (Fedora, CentOS,RHEL6): if not os.path.exists("/etc/sysconfig/iptables"): return True if ":on" not in chkconfig("--list","iptables").stdout: return True else: if "Status: active" not in ufw.status().stdout: return True if not os.path.exists("/etc/ufw/before.rules"): return True rule = "-p tcp -m tcp --dport 16509 -j ACCEPT" if rule in iptablessave().stdout: return True return False def execute(self): ports = "22 1798 16509".split() if distro in (Fedora , CentOS, RHEL6): for p in ports: iptables("-I","INPUT","1","-p","tcp","--dport",p,'-j','ACCEPT') o = service.iptables.save() ; print o.stdout + o.stderr else: for p in ports: ufw.allow(p) class SetupFirewall2(ConfigTask): # this closes bug 4371 name = "additional firewall setup" def __init__(self,brname): ConfigTask.__init__(self) self.brname = brname def done(self): if distro in (Fedora, CentOS, RHEL6): if not os.path.exists("/etc/sysconfig/iptables"): return True if ":on" not in chkconfig("--list","iptables").stdout: return True return False else: if "Status: active" not in ufw.status().stdout: return True if not os.path.exists("/etc/ufw/before.rules"): return True return False def execute(self): yield "Permitting traffic in the bridge interface, migration port and for VNC ports" if distro in (Fedora , CentOS, RHEL6): for rule in ( "-I INPUT 1 -p tcp --dport 5900:6100 -j ACCEPT", "-I INPUT 1 -p tcp --dport 49152:49216 -j ACCEPT", ): args = rule.split() o = iptables(*args) service.iptables.save(stdout=None,stderr=None) else: ufw.allow.proto.tcp("from","any","to","any","port","5900:6100") ufw.allow.proto.tcp("from","any","to","any","port","49152:49216") stop_service("ufw") start_service("ufw") # Tasks according to distribution -- at some point we will split them in separate modules def config_tasks(brname, pubNic, prvNic): if distro is CentOS: config_tasks = ( SetupNetworking(brname, pubNic, prvNic), SetupLibvirt(), SetupRequiredServices(), SetupFirewall(), SetupFirewall2(brname), ) elif distro in (Ubuntu,Fedora, RHEL6): config_tasks = ( SetupNetworking(brname, pubNic, prvNic), SetupCgConfig(), SetupCgRules(), SetupSecurityDriver(), SetupLibvirt(), SetupLiveMigration(), SetupRequiredServices(), SetupFirewall(), SetupFirewall2(brname), ) else: raise AssertionError("Unknown distribution") return config_tasks def backup_etc(targetdir): if not targetdir.endswith("/"): targetdir += "/" check_call( ["mkdir","-p",targetdir] ) rsynccall = ["rsync","-ax","--delete"] + ["/etc/",targetdir] check_call( rsynccall ) def restore_etc(targetdir): if not targetdir.endswith("/"): targetdir += "/" rsynccall = ["rsync","-ax","--delete"] + [targetdir,"/etc/"] check_call( rsynccall ) def remove_backup(targetdir): check_call( ["rm","-rf",targetdir] ) def list_zonespods(host): text = urllib2.urlopen('http://%s:8096/client/api?command=listPods'%host).read(-1) dom = xml.dom.minidom.parseString(text) x = [ (zonename,podname) for pod in dom.childNodes[0].childNodes for podname in [ x.childNodes[0].wholeText for x in pod.childNodes if x.tagName == "name" ] for zonename in [ x.childNodes[0].wholeText for x in pod.childNodes if x.tagName == "zonename" ] ] return x def prompt_for_hostpods(zonespods): """Ask user to select one from those zonespods Returns (zone,pod) or None if the user made the default selection.""" while True: stderr("Type the number of the zone and pod combination this host belongs to (hit ENTER to skip this step)") print " N) ZONE, POD" print "================" for n,(z,p) in enumerate(zonespods): print "%3d) %s, %s"%(n,z,p) print "================" print "> ", zoneandpod = raw_input().strip() if not zoneandpod: # we go with default, do not touch anything, just break return None try: # if parsing fails as an int, just vomit and retry zoneandpod = int(zoneandpod) if zoneandpod >= len(zonespods) or zoneandpod < 0: raise ValueError, "%s out of bounds"%zoneandpod except ValueError,e: stderr(str(e)) continue # re-ask # oh yeah, the int represents an valid zone and pod index in the array return zonespods[zoneandpod] # this configures the agent def device_exist(devName): try: alreadysetup = False if distro in (Fedora,CentOS, RHEL6): alreadysetup = augtool._print("/files/etc/sysconfig/network-scripts/ifcfg-%s"%devName).stdout.strip() else: alreadysetup = augtool.match("/files/etc/network/interfaces/iface",devName).stdout.strip() return alreadysetup except OSError,e: return False def setup_agent_config(configfile, host, zone, pod, cluster, guid, pubNic, prvNic): stderr("Examining Agent configuration") fn = configfile text = file(fn).read(-1) lines = [ s.strip() for s in text.splitlines() ] confopts = dict([ m.split("=",1) for m in lines if "=" in m and not m.startswith("#") ]) confposes = dict([ (m.split("=",1)[0],n) for n,m in enumerate(lines) if "=" in m and not m.startswith("#") ]) if guid != None: confopts['guid'] = guid else: if not "guid" in confopts: stderr("Generating GUID for this Agent") confopts['guid'] = uuidgen().stdout.strip() if host == None: try: host = confopts["host"] except KeyError: host = "localhost" stderr("Please enter the host name of the management server that this agent will connect to: (just hit ENTER to go with %s)",host) print "> ", newhost = raw_input().strip() if newhost: host = newhost confopts["host"] = host if pubNic != None and device_exist(pubNic): confopts["public.network.device"] = pubNic if prvNic == None or not device_exist(prvNic): confopts["private.network.device"] = pubNic if prvNic != None and device_exist(prvNic): confopts["private.network.device"] = prvNic if pubNic == None or not device_exist(pubNic): confopts["public.network.device"] = prvNic stderr("Querying %s for zones and pods",host) try: if zone == None or pod == None: x = list_zonespods(confopts['host']) zoneandpod = prompt_for_hostpods(x) if zoneandpod: confopts["zone"],confopts["pod"] = zoneandpod stderr("You selected zone %s pod %s",confopts["zone"],confopts["pod"]) else: stderr("Skipped -- using the previous zone %s pod %s",confopts["zone"],confopts["pod"]) else: confopts["zone"] = zone confopts["pod"] = pod confopts["cluster"] = cluster except (urllib2.URLError,urllib2.HTTPError),e: stderr("Query failed: %s. Defaulting to zone %s pod %s",str(e),confopts["zone"],confopts["pod"]) for opt,val in confopts.items(): line = "=".join([opt,val]) if opt not in confposes: lines.append(line) else: lines[confposes[opt]] = line text = "\n".join(lines) file(fn,"w").write(text) def setup_consoleproxy_config(configfile, host, zone, pod): stderr("Examining Console Proxy configuration") fn = configfile text = file(fn).read(-1) lines = [ s.strip() for s in text.splitlines() ] confopts = dict([ m.split("=",1) for m in lines if "=" in m and not m.startswith("#") ]) confposes = dict([ (m.split("=",1)[0],n) for n,m in enumerate(lines) if "=" in m and not m.startswith("#") ]) if not "guid" in confopts: stderr("Generating GUID for this Console Proxy") confopts['guid'] = uuidgen().stdout.strip() if host == None: try: host = confopts["host"] except KeyError: host = "localhost" stderr("Please enter the host name of the management server that this console-proxy will connect to: (just hit ENTER to go with %s)",host) print "> ", newhost = raw_input().strip() if newhost: host = newhost confopts["host"] = host stderr("Querying %s for zones and pods",host) try: if zone == None or pod == None: x = list_zonespods(confopts['host']) zoneandpod = prompt_for_hostpods(x) if zoneandpod: confopts["zone"],confopts["pod"] = zoneandpod stderr("You selected zone %s pod %s",confopts["zone"],confopts["pod"]) else: stderr("Skipped -- using the previous zone %s pod %s",confopts["zone"],confopts["pod"]) else: confopts["zone"] = zone confopts["pod"] = pod except (urllib2.URLError,urllib2.HTTPError),e: stderr("Query failed: %s. Defaulting to zone %s pod %s",str(e),confopts["zone"],confopts["pod"]) for opt,val in confopts.items(): line = "=".join([opt,val]) if opt not in confposes: lines.append(line) else: lines[confposes[opt]] = line text = "\n".join(lines) file(fn,"w").write(text) # =========================== DATABASE MIGRATION SUPPORT CODE =================== # Migrator, Migratee and Evolvers -- this is the generic infrastructure. class MigratorException(Exception): pass class NoMigrationPath(MigratorException): pass class NoMigrator(MigratorException): pass INITIAL_LEVEL = '-' class Migrator: """Migrator class. The migrator gets a list of Python objects, and discovers MigrationSteps in it. It then sorts the steps into a chain, based on the attributes from_level and to_level in each one of the steps. When the migrator's run(context) is called, the chain of steps is applied sequentially on the context supplied to run(), in the order of the chain of steps found at discovery time. See the documentation for the MigrationStep class for information on how that happens. """ def __init__(self,evolver_source): self.discover_evolvers(evolver_source) self.sort_evolvers() def discover_evolvers(self,source): self.evolvers = [] for val in source: if hasattr(val,"from_level") and hasattr(val,"to_level") and val.to_level: self.evolvers.append(val) def sort_evolvers(self): new = [] while self.evolvers: if not new: try: idx= [ i for i,s in enumerate(self.evolvers) if s.from_level == INITIAL_LEVEL ][0] # initial evolver except IndexError,e: raise IndexError, "no initial evolver (from_level is None) could be found" else: try: idx= [ i for i,s in enumerate(self.evolvers) if new[-1].to_level == s.from_level ][0] except IndexError,e: raise IndexError, "no evolver could be found to evolve from level %s"%new[-1].to_level new.append(self.evolvers.pop(idx)) self.evolvers = new def get_evolver_chain(self): return [ (s.from_level, s.to_level, s) for s in self.evolvers ] def get_evolver_by_starting_level(self,level): try: return [ s for s in self.evolvers if s.from_level == level][0] except IndexError: raise NoMigrator, "No evolver knows how to evolve the database from schema level %r"%level def get_evolver_by_ending_level(self,level): try: return [ s for s in self.evolvers if s.to_level == level][0] except IndexError: raise NoMigrator, "No evolver knows how to evolve the database to schema level %r"%level def run(self, context, dryrun = False, starting_level = None, ending_level = None): """Runs each one of the steps in sequence, passing the migration context to each. At the end of the process, context.commit() is called to save the changes, or context.rollback() is called if dryrun = True. If starting_level is not specified, then the context.get_schema_level() is used to find out at what level the context is at. Then starting_level is set to that. If ending_level is not specified, then the evolvers will run till the end of the chain.""" assert dryrun is False # NOT IMPLEMENTED, prolly gonna implement by asking the context itself to remember its state starting_level = starting_level or context.get_schema_level() or self.evolvers[0].from_level ending_level = ending_level or self.evolvers[-1].to_level evolution_path = self.evolvers idx = evolution_path.index(self.get_evolver_by_starting_level(starting_level)) evolution_path = evolution_path[idx:] try: idx = evolution_path.index(self.get_evolver_by_ending_level(ending_level)) except ValueError: raise NoEvolutionPath, "No evolution path from schema level %r to schema level %r" % \ (starting_level,ending_level) evolution_path = evolution_path[:idx+1] logging.info("Starting migration on %s"%context) for ec in evolution_path: assert ec.from_level == context.get_schema_level() evolver = ec(context=context) logging.info("%s (from level %s to level %s)", evolver, evolver.from_level, evolver.to_level) #try: evolver.run() #except: #context.rollback() #raise context.set_schema_level(evolver.to_level) #context.commit() logging.info("%s is now at level %s",context,context.get_schema_level()) #if dryrun: # implement me with backup and restore #logging.info("Rolling back changes on %s",context) #context.rollback() #else: #logging.info("Committing changes on %s",context) #context.commit() logging.info("Migration finished") class MigrationStep: """Base MigrationStep class, aka evolver. You develop your own steps, and then pass a list of those steps to the Migrator instance that will run them in order. When the migrator runs, it will take the list of steps you gave him, and, for each step: a) instantiate it, passing the context you gave to the migrator into the step's __init__(). b) run() the method in the migration step. As you can see, the default MigrationStep constructor makes the passed context available as self.context in the methods of your step. Each step has two member vars that determine in which order they are run, and if they need to run: - from_level = the schema level that the database should be at, before running the evolver The value None has special meaning here, it means the first evolver that should be run if the database does not have a schema level yet. - to_level = the schema level number that the database will be at after the evolver has run """ # Implement these attributes in your steps from_level = None to_level = None def __init__(self,context): self.context = context def run(self): raise NotImplementedError class MigrationContext: def __init__(self): pass def commit(self):raise NotImplementedError def rollback(self):raise NotImplementedError def get_schema_level(self):raise NotImplementedError def set_schema_level(self,l):raise NotImplementedError