Exemplo n.º 1
0
def getVMInfo(session, machine):
    answer = {}
    answer["name"] = str(machine.name)
    answer["groups"] = machine.groups
    answer["vrde"] = machine.vrde_server.enabled
    answer["vrdeproperty[TCP/Ports]"] = str(
        machine.vrde_server.get_vrde_property('TCP/Ports'))
    answer["VMState"] = machine.state

    # need active machine/console for the following:
    if session.state != SessionState(1) or machine.state != MachineState(5):
        logging.debug(
            "session is locked or machine is not running, cannot get console (1)"
            + str(session.state))
        return answer
    machine.lock_machine(session, LockType(1))
    console = session.console
    if console == None:
        logging.debug("cannot get console (2), machine is probably off")
        session.unlock_machine()
        return answer

    answer["VRDEActiveConnection"] = console.vrde_server_info.active
    res = console.display.get_screen_resolution(0)
    # try to set it to 16 bpp to reduce throughput requirements
    # if res > 16:
    #    logging.debug("Sending hint to adjust resolution")
    #    console.display.setVideoModeHint(0, True, False, 0, 0, 0, 0, 16)
    #    res = console.display.getScreenResolution(0)
    #    logging.debug("After adjustment request"+str(res))
    answer["VideoMode"] = res[2]
    session.unlock_machine()
    return answer
Exemplo n.º 2
0
def restoreMachine(session, machine):
    if session.state != SessionState(1) or (machine.state != MachineState(1)
                                            and
                                            machine.state != MachineState(4)):
        logging.debug(
            "session is locked or machine is not powered off, not restoring vm. Session State:"
            + str(session.state) + "Machine State:" + str(machine.state))
        return -1
    try:
        machine.lock_machine(session, LockType(1))
        snap = machine.current_snapshot
        # have to reference using session for some weird reason!
        logging.debug("Calling Restore API Function")
        progress = session.machine.restore_snapshot(snap)
        progress.wait_for_completion(-1)
        session.unlock_machine()
        return 0
    except Exception as e:
        logging.error("Error in Restore: " + str(mgr) + " " + str(e))
        traceback.print_exc()
        session.unlock_machine()
        return -1
Exemplo n.º 3
0
def startMachine(session, machine):
    try:
        if session.state != SessionState(1) or machine.state != MachineState(
                2):
            logging.debug("session is locked, not starting vm")
            return -1
        logging.debug("Calling Launch API Function")
        progress = machine.launch_vm_process(session, "headless", "")
        progress.wait_for_completion(-1)
        session.unlock_machine()
        return 0
    except Exception as e:
        logging.error("error during start" + str(e))
        session.unlock_machine()
        return -1
Exemplo n.º 4
0
def powerdownMachine(session, machine):
    try:
        if session.state != SessionState(1) or machine.state != MachineState(
                5):
            logging.debug(
                "session is locked or machine is not running, not powering down"
            )
            return -1
        machine.lock_machine(session, LockType(1))
        console = session.console
        if console != None:
            logging.debug("Calling Power Down API Function")
            progress = console.power_down()
            progress.wait_for_completion(-1)
        else:
            logging.info("can't get console, vm is probably off")
        session.unlock_machine()
        return 0
    except Exception as e:
        logging.error("error during powerdown" + str(e))
        session.unlock_machine()
        return -1
Exemplo n.º 5
0
def unitIsAvailable(vm_set):
    for vm in vm_set:
        if (vm not in availableState and
                vms[vm]["vrde"]) or (vms[vm]["VMState"] != MachineState(5)):
            return False
    return True
Exemplo n.º 6
0
def manageStates():
    global vms
    global groupToVms
    global availableInfo

    while True:
        try:
            logging.debug("Manage States loop start")
            currvms = {}
            currGroupToVms = {}

            # first get all vms
            for mach in vbox.machines:
                logging.debug("getting info for machine" + str(mach.name))
                currvms[str(mach.name)] = getVMInfo(session, mach)

            # for each vm get info and place in state list
            logging.debug("placing info into state list")
            for vm in currvms:
                # get group name and add this vm to a dictionary of that group:
                for group in currvms[vm]["groups"]:
                    gname = str(group)
                    if gname != "/":
                        if gname not in currGroupToVms:
                            currGroupToVms[gname] = []
                        currGroupToVms[gname].append(vm)

                        # so we get all at once (may have to create a lock?)
            queueStateSem.wait()
            queueStateSem.acquire()
            ###lock###
            vms = currvms
            groupToVms = currGroupToVms
            ###unlock###
            queueStateSem.release()

            ########Assign each vm into a state list############

            # first look at any "not available" to see if they go into the "restore" state
            nasList = []
            for vmName in vms:
                if "VRDEActiveConnection" in vms[vmName]:
                    if vms[vmName][
                            "VRDEActiveConnection"] == 1 and vmName in availableState and vmName not in notAvailableState and vmName not in restoreState:
                        nasList.append(vmName)
                    elif vms[vmName][
                            "VRDEActiveConnection"] == 0 and vmName in notAvailableState and vmName not in restoreState and vmName not in restoreState:
                        restoreState.append(vmName)

            makeAvailableToNotAvailable(nasList)
            # Note that the restore thread will move vms in restore buffer available after processing
            # add any newly available vms into the available buffer
            av = []
            for vmName in vms:
                if "vrde" in vms[vmName] and vms[vmName]["vrde"] == 1 and vms[
                        vmName]["VMState"] == MachineState(5):
                    # make available
                    if vmName not in notAvailableState and vmName not in restoreState and vmName not in availableState:
                        av.append(vmName)
            makeNewToAvailableState(av)

            # add available info to available vms
            availableInfoSem.wait()
            availableInfoSem.acquire()
            availableInfo = []
            for vmName in availableState:
                if "name" in vms[vmName] and "vrdeproperty[TCP/Ports]" in vms[
                        vmName]:
                    availableInfo.append((vms[vmName], "Available"))
            for vmName in notAvailableState:
                if "name" in vms[vmName] and "vrdeproperty[TCP/Ports]" in vms[
                        vmName]:
                    availableInfo.append((vms[vmName], "Not available"))
            for vmName in restoreState:
                if "name" in vms[vmName] and "vrdeproperty[TCP/Ports]" in vms[
                        vmName]:
                    availableInfo.append((vms[vmName], "Restoring"))
            availableInfoSem.release()

            # Print out status
            logging.info("\n\n\n")
            logging.info("status:")
            logging.info("available:" + str(availableState))
            logging.info("notAvailable:" + str(notAvailableState))
            logging.info("restore:" + str(restoreState))
            time.sleep(VBOX_PROBETIME)

        except Exception as x:
            logging.error("STATES: An error occurred:" + str(x))
            time.sleep(LOCK_WAIT_TIME)
Exemplo n.º 7
0
def makeRestoreToAvailableState(
):  # will look at restore buffer and process any items that exist
    global vms
    global groupToVms
    restoreSubstates = {}
    while True:
        try:
            # Need to reload all vms that are in the group of the vm in the "restore" state
            # get each vm in restoreState list
            for vmToRestore in restoreState:
                # if this vm has a group
                logging.debug("vmToRestore" + str(vmToRestore))
                if vmToRestore in vms and "groups" in vms[vmToRestore]:
                    # get all vms in group
                    groupToRestore = str(vms[vmToRestore]["groups"][0])
                    logging.debug("groupToRestore" + str(groupToRestore))
                    # add each vm in group to restoreSubstate list (if haven't already)
                    for vmInGroup in groupToVms[groupToRestore]:
                        logging.debug("vmInGroup" + str(vmInGroup))
                        if vmInGroup not in restoreSubstates:
                            restoreSubstates[vmInGroup] = "pending"
                            # Process next stage in restore

            logging.debug("Restore substates:" + str(restoreSubstates))
            vmsToRemoveFromQueue = []
            for substate in restoreSubstates:
                logging.debug("Processing state for:" + str(substate) +
                              str(restoreSubstates[substate]))
                queueStateSem.wait()
                queueStateSem.acquire()
                mach = vbox.find_machine(substate)
                vmState = getVMInfo(session, mach)["VMState"]
                queueStateSem.release()
                logging.debug("currState:" + str(vmState))
                result = -1
                if restoreSubstates[
                        substate] == "pending" and vmState == MachineState(5):
                    logging.debug("CALLING POWEROFF" + str(substate) + ":" +
                                  str(restoreSubstates[substate]))
                    execShutdownCmds(mach)
                    result = powerdownMachine(session, mach)
                    if result != -1:
                        restoreSubstates[substate] = "poweroff_sent"

                elif restoreSubstates[
                        substate] == "poweroff_sent" and vmState == MachineState(
                            1) or vmState == MachineState(4):
                    logging.debug("CALLING RESTORE" + str(substate) + ":" +
                                  str(restoreSubstates[substate]))
                    result = restoreMachine(session, mach)
                    if result != -1:
                        restoreSubstates[substate] = "restorecurrent_sent"

                elif restoreSubstates[
                        substate] == "restorecurrent_sent" and vmState == MachineState(
                            2):
                    logging.debug("CALLING STARTVM" + str(substate) + ":" +
                                  str(restoreSubstates[substate]))
                    result = startMachine(session, mach)
                    if result != -1:
                        restoreSubstates[substate] = "startvm_sent"

                elif restoreSubstates[
                        substate] == "startvm_sent" and vmState == MachineState(
                            5):
                    restoreSubstates[substate] = "complete"
                    queueStateSem.wait()
                    queueStateSem.acquire()
                    if substate in restoreState:
                        # remove from restore so it can be added to available buffer once again
                        restoreState.remove(substate)
                    if substate in notAvailableState:
                        notAvailableState.remove(substate)
                    queueStateSem.release()
                    vmsToRemoveFromQueue.append(substate)

            for rem in vmsToRemoveFromQueue:
                if rem in restoreSubstates:
                    del restoreSubstates[rem]
            time.sleep(VM_RESTORE_TIME)
        except Exception as e:
            logging.error("RESTORE: An error occured: " + str(e))
            time.sleep(LOCK_WAIT_TIME)
            pass
Exemplo n.º 8
0
def running_vagrant_boxes():
    vbox = VirtualBox()
    return [vm.name for vm in vbox.machines if vm.state == MachineState(5)]