示例#1
0
def _add_dev_blade(ip, pairs, parent, raw, counts, dev_id):
    if '[' in dev_id:
        pos = int(dev_id[dev_id.find('[') + 1:dev_id.find(']')])
    else:
        pos = None
    dev = _dev(DeviceType.blade_server, pairs, parent, raw)
    dev.chassis_position = pos
    if pos:
        dev.position = '%02d' % pos
    else:
        dev.position = ''
    counts.blade += 1
    dev.save(update_last_seen=True, priority=SAVE_PRIORITY)
    for i in range(1, 9):
        name = 'MAC Address %d' % i
        mac = pairs.get(name)
        if mac == 'Not Available' or mac is None:
            continue
        eth, created = Ethernet.concurrent_get_or_create(
            mac=MACAddressField.normalize(mac),
            defaults=dict(device=dev),
        )
        eth.label = name
        eth.save(priority=SAVE_PRIORITY)
    return dev
def _add_dev_blade(ip, pairs, parent, raw, counts, dev_id):
    if '[' in dev_id:
        pos = int(dev_id[dev_id.find('[') + 1:dev_id.find(']')])
    else:
        pos = None
    dev = _dev(DeviceType.blade_server, pairs, parent, raw)
    dev.chassis_position = pos
    if pos:
        dev.position = '%02d' % pos
    else:
        dev.position = ''
    counts.blade += 1
    dev.save(update_last_seen=True, priority=SAVE_PRIORITY)
    for i in range(1, 9):
        name = 'MAC Address %d' % i
        mac = pairs.get(name)
        if mac == 'Not Available' or mac is None:
            continue
        eth, created = Ethernet.concurrent_get_or_create(
            mac=MACAddressField.normalize(mac),
            defaults=dict(device=dev),
        )
        eth.label = name
        eth.save(priority=SAVE_PRIORITY)
    return dev
示例#3
0
def _add_dev_switch(ip, pairs, parent, raw, counts, dev_id):
    dev_type = DeviceType.switch
    if pairs["Mach type/model"].startswith("Fibre Channel SM"):
        dev_type = DeviceType.fibre_channel_switch
    dev = _dev(dev_type, pairs, parent, raw)
    mac = pairs.get("MAC Address")
    if mac:
        eth, created = Ethernet.concurrent_get_or_create(mac=MACAddressField.normalize(mac), defaults=dict(device=dev))
        eth.label = "Ethernet"
        eth.save(priority=SAVE_PRIORITY)
    return dev
示例#4
0
def run_ssh_asa(ip):
    ssh = _connect_ssh(ip)
    try:
        lines = ssh.asa_command(
            "show version | grep (^Hardware|Boot microcode|^Serial|address is)"
        )
        raw_inventory = '\n'.join(ssh.asa_command("show inventory"))
    finally:
        ssh.close()

    pairs = parse.pairs(lines=[line.strip() for line in lines])
    sn = pairs.get('Serial Number', None)
    model, ram, cpu = pairs['Hardware'].split(',')
    boot_firmware = pairs['Boot microcode']

    ethernets = []
    for i in xrange(99):
        try:
            junk, label, mac = pairs['%d' % i].split(':')
        except KeyError:
            break
        mac = mac.split(',', 1)[0]
        mac = mac.replace('address is', '')
        mac = mac.replace('.', '').upper().strip()
        label = label.strip()
        ethernets.append(Eth(label, mac, speed=None))

    dev = Device.create(ethernets=ethernets,
                        sn=sn,
                        model_name=model,
                        model_type=DeviceType.firewall,
                        boot_firmware=boot_firmware)
    dev.save(update_last_seen=True)

    inventory = list(cisco_inventory(raw_inventory))
    for inv in inventory:
        cisco_component(dev, inv)

    ipaddr, created = IPAddress.concurrent_get_or_create(address=ip)
    ipaddr.device = dev
    ipaddr.is_management = True
    ipaddr.save()

    for label, mac, speed in ethernets:
        eth, created = Ethernet.concurrent_get_or_create(
            mac=mac,
            defaults={'device': dev},
        )
        eth.label = label
        eth.device = dev
        eth.save()

    return model
示例#5
0
def _add_dev_switch(pairs, parent, raw, counts, dev_id):
    dev_type = DeviceType.switch
    if pairs['Mach type/model'].startswith('Fibre Channel SM'):
        dev_type = DeviceType.fibre_channel_switch
    dev = _dev(dev_type, pairs, parent, raw)
    mac = pairs.get('MAC Address')
    if mac:
        eth, created = Ethernet.concurrent_get_or_create(device=dev,
            mac=MACAddressField.normalize(mac))
        eth.label = 'Ethernet'
        eth.save(priority=SAVE_PRIORITY)
    return dev
示例#6
0
def _add_dev_switch(pairs, parent, raw, counts, dev_id):
    dev_type = DeviceType.switch
    if pairs['Mach type/model'].startswith('Fibre Channel SM'):
        dev_type = DeviceType.fibre_channel_switch
    dev = _dev(dev_type, pairs, parent, raw)
    mac = pairs.get('MAC Address')
    if mac:
        eth, created = Ethernet.concurrent_get_or_create(
            device=dev, mac=MACAddressField.normalize(mac))
        eth.label = 'Ethernet'
        eth.save(priority=SAVE_PRIORITY)
    return dev
示例#7
0
def run_ssh_asa(ip):
    ssh = _connect_ssh(ip)
    try:
        lines = ssh.asa_command(
            "show version | grep (^Hardware|Boot microcode|^Serial|address is)"
        )
        raw_inventory = '\n'.join(ssh.asa_command("show inventory"))
    finally:
        ssh.close()

    pairs = parse.pairs(lines=[line.strip() for line in lines])
    sn = pairs.get('Serial Number', None)
    model, ram, cpu = pairs['Hardware'].split(',')
    boot_firmware = pairs['Boot microcode']

    ethernets = []
    for i in xrange(99):
        try:
            junk, label, mac = pairs['%d' % i].split(':')
        except KeyError:
            break
        mac = mac.split(',', 1)[0]
        mac = mac.replace('address is', '')
        mac = mac.replace('.', '').upper().strip()
        label = label.strip()
        ethernets.append(Eth(label, mac, speed=None))

    dev = Device.create(ethernets=ethernets, sn=sn, model_name=model,
                        model_type=DeviceType.firewall,
                        boot_firmware=boot_firmware)
    dev.save(update_last_seen=True)

    inventory = list(cisco_inventory(raw_inventory))
    for inv in inventory:
        cisco_component(dev, inv)

    ipaddr, created = IPAddress.concurrent_get_or_create(address=ip)
    ipaddr.device = dev
    ipaddr.is_management = True
    ipaddr.save()

    for label, mac, speed in ethernets:
        eth, created = Ethernet.concurrent_get_or_create(
            mac=mac,
            defaults={'device': dev},
        )
        eth.label = label
        eth.device = dev
        eth.save()

    return model
示例#8
0
def _add_dev_blade(pairs, parent, raw, counts, dev_id):
    if "[" in dev_id:
        pos = int(dev_id[dev_id.find("[") + 1 : dev_id.find("]")])
    else:
        pos = None
    dev = _dev(DeviceType.blade_server, pairs, parent, raw)
    dev.chassis_position = pos
    dev.position = "%02d" % pos
    counts.blade += 1
    dev.save(update_last_seen=True, priority=SAVE_PRIORITY)
    for i in range(1, 9):
        name = "MAC Address %d" % i
        mac = pairs.get(name)
        if mac == "Not Available" or mac is None:
            continue
        eth, created = Ethernet.concurrent_get_or_create(device=dev, mac=MACAddressField.normalize(mac))
        eth.label = name
        eth.save(priority=SAVE_PRIORITY)
    return dev
示例#9
0
文件: ipmi.py 项目: pb-it/ralph
def _add_ipmi_lan(device, mac):
    eth, created = Ethernet.concurrent_get_or_create(device=device,
        mac=MACAddressField.normalize(mac))
    eth.label = 'IPMI MC'
    eth.save(priority=SAVE_PRIORITY)
示例#10
0
文件: ipmi.py 项目: iwwwwwwi/ralph
def _add_ipmi_lan(device, mac):
    eth, created = Ethernet.concurrent_get_or_create(
        device=device, mac=MACAddressField.normalize(mac))
    eth.label = 'IPMI MC'
    eth.save(priority=SAVE_PRIORITY)