[Openstack] neutron-server cannot start

john decot johndecot at gmail.com
Sun Jul 27 02:52:45 UTC 2014


Neutron.conf and ML2_conf.ini files are as follows:

neutron.conf:

[DEFAULT]
# Print more verbose output (set logging level to INFO instead of default
WARNING level).
# verbose = True

# Print debugging output (set logging level to DEBUG instead of default
WARNING level).
# debug = False

# Where to store Neutron state files.  This directory must be writable by
the
# user executing the agent.
# state_path = /var/lib/neutron

# Where to store lock files
# lock_path = $state_path/lock

# log_format = %(asctime)s %(levelname)8s [%(name)s] %(message)s
# log_date_format = %Y-%m-%d %H:%M:%S

# use_syslog                           -> syslog
# log_file and log_dir                 -> log_dir/log_file
# (not log_file) and log_dir           -> log_dir/{binary_name}.log
# use_stderr                           -> stderr
# (not user_stderr) and (not log_file) -> stdout
# publish_errors                       -> notification system

# use_syslog = False
# syslog_log_facility = LOG_USER

# use_stderr = False
# log_file =
# log_dir =

# publish_errors = False

# Address to bind the API server to
# bind_host = 0.0.0.0

# Port the bind the API server to
# bind_port = 9696

# Path to the extensions.  Note that this can be a colon-separated list of
# paths.  For example:
# api_extensions_path =
extensions:/path/to/more/extensions:/even/more/extensions
# The __path__ of neutron.extensions is appended to this, so if your
# extensions are in there you don't need to specify them here
# api_extensions_path =

# (StrOpt) Neutron core plugin entrypoint to be loaded from the
# neutron.core_plugins namespace. See setup.cfg for the entrypoint names of
the
# plugins included in the neutron source distribution. For compatibility
with
# previous versions, the class name of a plugin can be specified instead of
its
# entrypoint name.
#
# core_plugin =
# Example: core_plugin = ml2
core_plugin = ml2
# (ListOpt) List of service plugin entrypoints to be loaded from the
# neutron.service_plugins namespace. See setup.cfg for the entrypoint names
of
# the plugins included in the neutron source distribution. For compatibility
# with previous versions, the class name of a plugin can be specified
instead
# of its entrypoint name.
#
# service_plugins =
# Example: service_plugins = router,firewall,lbaas,vpnaas,metering
service_plugins = router
# Paste configuration file
# api_paste_config = /usr/share/neutron/api-paste.ini

# The strategy to be used for auth.
# Supported values are 'keystone'(default), 'noauth'.
# auth_strategy = noauth
auth_strategy = keystone
# Base MAC address. The first 3 octets will remain unchanged. If the
# 4h octet is not 00, it will also be used. The others will be
# randomly generated.
# 3 octet
# base_mac = fa:16:3e:00:00:00
# 4 octet
# base_mac = fa:16:3e:4f:00:00

# Maximum amount of retries to generate a unique MAC address
# mac_generation_retries = 16

# DHCP Lease duration (in seconds)
# dhcp_lease_duration = 86400

# Allow sending resource operation notification to DHCP agent
 dhcp_agent_notification = True

# Enable or disable bulk create/update/delete operations
# allow_bulk = True
# Enable or disable pagination
# allow_pagination = False
# Enable or disable sorting
# allow_sorting = False
# Enable or disable overlapping IPs for subnets
# Attention: the following parameter MUST be set to False if Neutron is
# being used in conjunction with nova security groups
allow_overlapping_ips = True
# Ensure that configured gateway is on subnet
# force_gateway_on_subnet = False


# RPC configuration options. Defined in rpc __init__
# The messaging module to use, defaults to kombu.
 rpc_backend = neutron.openstack.common.rpc.impl_kombu
# Size of RPC thread pool
# rpc_thread_pool_size = 64
# Size of RPC connection pool
# rpc_conn_pool_size = 30
# Seconds to wait for a response from call or multicall
# rpc_response_timeout = 60
# Seconds to wait before a cast expires (TTL). Only supported by impl_zmq.
# rpc_cast_timeout = 30
# Modules of exceptions that are permitted to be recreated
# upon receiving exception data from an rpc call.
# allowed_rpc_exception_modules = neutron.openstack.common.exception,
nova.exception
# AMQP exchange to connect to if using RabbitMQ or QPID
 control_exchange = neutron

# If passed, use a fake RabbitMQ provider
# fake_rabbit = False

# Configuration options if sending notifications via kombu rpc (these are
# the defaults)
# SSL version to use (valid only if SSL enabled)
# kombu_ssl_version =
# SSL key file (valid only if SSL enabled)
# kombu_ssl_keyfile =
# SSL cert file (valid only if SSL enabled)
# kombu_ssl_certfile =
# SSL certification authority file (valid only if SSL enabled)
# kombu_ssl_ca_certs =
# IP address of the RabbitMQ installation
 rabbit_host = localhost
# Password of the RabbitMQ server
 rabbit_password = xxxxxx
# Port where RabbitMQ server is running/listening
 rabbit_port = 5672
# RabbitMQ single or HA cluster (host:port pairs i.e: host1:5672,
host2:5672)
# rabbit_hosts is defaulted to '$rabbit_host:$rabbit_port'
# rabbit_hosts = localhost:5672
# User ID used for RabbitMQ connections
 rabbit_userid = guest
# Location of a virtual RabbitMQ installation.
# rabbit_virtual_host = /
# Maximum retries with trying to connect to RabbitMQ
# (the default of 0 implies an infinite retry count)
# rabbit_max_retries = 0
# RabbitMQ connection retry interval
# rabbit_retry_interval = 1
# Use HA queues in RabbitMQ (x-ha-policy: all). You need to
# wipe RabbitMQ database when changing this option. (boolean value)
# rabbit_ha_queues = false

# QPID
# rpc_backend=neutron.openstack.common.rpc.impl_qpid
# Qpid broker hostname
# qpid_hostname = localhost
# Qpid broker port
# qpid_port = 5672
# Qpid single or HA cluster (host:port pairs i.e: host1:5672, host2:5672)
# qpid_hosts is defaulted to '$qpid_hostname:$qpid_port'
# qpid_hosts = localhost:5672
# Username for qpid connection
# qpid_username = ''
# Password for qpid connection
# qpid_password = ''
# Space separated list of SASL mechanisms to use for auth
# qpid_sasl_mechanisms = ''
# Seconds between connection keepalive heartbeats
# qpid_heartbeat = 60
# Transport to use, either 'tcp' or 'ssl'
# qpid_protocol = tcp
# Disable Nagle algorithm
# qpid_tcp_nodelay = True

# ZMQ
# rpc_backend=neutron.openstack.common.rpc.impl_zmq
# ZeroMQ bind address. Should be a wildcard (*), an ethernet interface, or
IP.
# The "host" option should point or resolve to this address.
# rpc_zmq_bind_address = *

# ============ Notification System Options =====================

# Notifications can be sent when network/subnet/port are created, updated
or deleted.
# There are three methods of sending notifications: logging (via the
# log_file directive), rpc (via a message queue) and
# noop (no notifications sent, the default)

# Notification_driver can be defined multiple times
# Do nothing driver
# notification_driver = neutron.openstack.common.notifier.no_op_notifier
# Logging driver
# notification_driver = neutron.openstack.common.notifier.log_notifier
# RPC driver.
# notification_driver = neutron.openstack.common.notifier.rpc_notifier

# default_notification_level is used to form actual topic name(s) or to set
logging level
# default_notification_level = INFO

# default_publisher_id is a part of the notification payload
# host = myhost.com
# default_publisher_id = $host

# Defined in rpc_notifier, can be comma separated values.
# The actual topic names will be %s.%(default_notification_level)s
# notification_topics = notifications

# Default maximum number of items returned in a single response,
# value == infinite and value < 0 means no max limit, and value must
# be greater than 0. If the number of items requested is greater than
# pagination_max_limit, server will just return pagination_max_limit
# of number of items.
# pagination_max_limit = -1

# Maximum number of DNS nameservers per subnet
# max_dns_nameservers = 5

# Maximum number of host routes per subnet
# max_subnet_host_routes = 20

# Maximum number of fixed ips per port
# max_fixed_ips_per_port = 5

# =========== items for agent management extension =============
# Seconds to regard the agent as down; should be at least twice
# report_interval, to be sure the agent is down for good
# agent_down_time = 75
# ===========  end of items for agent management extension =====

# =========== items for agent scheduler extension =============
# Driver to use for scheduling network to DHCP agent
# network_scheduler_driver =
neutron.scheduler.dhcp_agent_scheduler.ChanceScheduler
# Driver to use for scheduling router to a default L3 agent
# router_scheduler_driver =
neutron.scheduler.l3_agent_scheduler.ChanceScheduler
# Driver to use for scheduling a loadbalancer pool to an lbaas agent
# loadbalancer_pool_scheduler_driver =
neutron.services.loadbalancer.agent_scheduler.ChanceScheduler

# Allow auto scheduling networks to DHCP agent. It will schedule non-hosted
# networks to first DHCP agent which sends get_active_networks message to
# neutron server
# network_auto_schedule = True

# Allow auto scheduling routers to L3 agent. It will schedule non-hosted
# routers to first L3 agent which sends sync_routers message to neutron
server
# router_auto_schedule = True

# Number of DHCP agents scheduled to host a network. This enables redundant
# DHCP agents for configured networks.
# dhcp_agents_per_network = 1

# ===========  end of items for agent scheduler extension =====

# =========== WSGI parameters related to the API server ==============
# Number of separate worker processes to spawn.  The default, 0, runs the
# worker thread in the current process.  Greater than 0 launches that
number of
# child processes as workers.  The parent process manages them.
# api_workers = 0

# Number of separate RPC worker processes to spawn.  The default, 0, runs
the
# worker thread in the current process.  Greater than 0 launches that
number of
# child processes as RPC workers.  The parent process manages them.
# This feature is experimental until issues are addressed and testing has
been
# enabled for various plugins for compatibility.
# rpc_workers = 0

# Sets the value of TCP_KEEPIDLE in seconds to use for each server socket
when
# starting API server. Not supported on OS X.
# tcp_keepidle = 600

# Number of seconds to keep retrying to listen
# retry_until_window = 30

# Number of backlog requests to configure the socket with.
# backlog = 4096

# Max header line to accommodate large tokens
# max_header_line = 16384

# Enable SSL on the API server
# use_ssl = False

# Certificate file to use when starting API server securely
# ssl_cert_file = /path/to/certfile

# Private key file to use when starting API server securely
# ssl_key_file = /path/to/keyfile

# CA certificate file to use when starting API server securely to
# verify connecting clients. This is an optional parameter only required if
# API clients need to authenticate to the API server using SSL certificates
# signed by a trusted CA
# ssl_ca_file = /path/to/cafile
# ======== end of WSGI parameters related to the API server ==========


# ======== neutron nova interactions ==========
# Send notification to nova when port status is active.
 notify_nova_on_port_status_changes = True

# Send notifications to nova when port data (fixed_ips/floatingips) change
# so nova can update it's cache.
notify_nova_on_port_data_changes = True

# URL for connection to nova (Only supports one nova region currently).
nova_url = http://127.0.0.1:8774/v2

# Name of nova region to use. Useful if keystone manages more than one
region
# nova_region_name =
nova_region_name = RegionOne

# Username for connection to nova in admin context
nova_admin_username = nova

# The uuid of the admin nova tenant
# nova_admin_tenant_id =
nova_admin_tenant_id =  8b83c2b6d22f4dfd82e15b105ea10ae3
# Password for connection to nova in admin context.
 nova_admin_password = xxxxxx

# Authorization URL for connection to nova in admin context.
# nova_admin_auth_url =
nova_admin_auth_url = http://localhost:35357/v2.0
# Number of seconds between sending events to nova if there are any events
to send
# send_events_interval = 2

# ======== end of neutron nova interactions ==========

[quotas]
# Default driver to use for quota checks
# quota_driver = neutron.db.quota_db.DbQuotaDriver

# Resource name(s) that are supported in quota features
# quota_items = network,subnet,port

# Default number of resource allowed per tenant. A negative value means
# unlimited.
# default_quota = -1

# Number of networks allowed per tenant. A negative value means unlimited.
# quota_network = 10

# Number of subnets allowed per tenant. A negative value means unlimited.
# quota_subnet = 10

# Number of ports allowed per tenant. A negative value means unlimited.
# quota_port = 50

# Number of security groups allowed per tenant. A negative value means
# unlimited.
# quota_security_group = 10

# Number of security group rules allowed per tenant. A negative value means
# unlimited.
# quota_security_group_rule = 100

# Number of vips allowed per tenant. A negative value means unlimited.
# quota_vip = 10

# Number of pools allowed per tenant. A negative value means unlimited.
# quota_pool = 10

# Number of pool members allowed per tenant. A negative value means
unlimited.
# The default is unlimited because a member is not a real resource consumer
# on Openstack. However, on back-end, a member is a resource consumer
# and that is the reason why quota is possible.
# quota_member = -1

# Number of health monitors allowed per tenant. A negative value means
# unlimited.
# The default is unlimited because a health monitor is not a real resource
# consumer on Openstack. However, on back-end, a member is a resource
consumer
# and that is the reason why quota is possible.
# quota_health_monitors = -1

# Number of routers allowed per tenant. A negative value means unlimited.
# quota_router = 10

# Number of floating IPs allowed per tenant. A negative value means
unlimited.
# quota_floatingip = 50

[agent]
# Use "sudo neutron-rootwrap /etc/neutron/rootwrap.conf" to use the real
# root filter facility.
# Change to "sudo" to skip the filtering and just run the comand directly
 root_helper = sudo neutron-rootwrap /etc/neutron/rootwrap.conf

# =========== items for agent management extension =============
# seconds between nodes reporting state to server; should be less than
# agent_down_time, best if it is half or less than agent_down_time
# report_interval = 30

# ===========  end of items for agent management extension =====

[keystone_authtoken]
auth_uri = http://192.168.168.100:5000
auth_host = 127.0.0.1
auth_port = 35357
auth_protocol = http
admin_tenant_name = service
admin_user = neutron
admin_password = xxxxxx
signing_dir = $state_path/keystone-signing

[database]
# This line MUST be changed to actually run the plugin.
# Example:
connection = mysql://neutron:xxxxxx@127.0.0.1/neutron_ml2
# Replace 127.0.0.1 above with the IP address of the database used by the
# main neutron server. (Leave it as is if the database runs on this host.)
# connection = sqlite://

# The SQLAlchemy connection string used to connect to the slave database
# slave_connection =

# Database reconnection retry times - in event connectivity is lost
# set to -1 implies an infinite retry count
# max_retries = 10

# Database reconnection interval in seconds - if the initial connection to
the
# database fails
# retry_interval = 10

# Minimum number of SQL connections to keep open in a pool
# min_pool_size = 1

# Maximum number of SQL connections to keep open in a pool
# max_pool_size = 10

# Timeout in seconds before idle sql connections are reaped
# idle_timeout = 3600

# If set, use this value for max_overflow with sqlalchemy
# max_overflow = 20

# Verbosity of SQL debugging information. 0=None, 100=Everything
# connection_debug = 0

# Add python stack traces to SQL as comment strings
# connection_trace = False

# If set, use this value for pool_timeout with sqlalchemy
# pool_timeout = 10

[service_providers]
# Specify service providers (drivers) for advanced services like
loadbalancer, VPN, Firewall.
# Must be in form:
# service_provider=<service_type>:<name>:<driver>[:default]
# List of allowed service types includes LOADBALANCER, FIREWALL, VPN
# Combination of <service type> and <name> must be unique; <driver> must
also be unique
# This is multiline option, example for default provider:
# service_provider=LOADBALANCER:name:lbaas_plugin_driver_path:default
# example of non-default provider:
# service_provider=FIREWALL:name2:firewall_driver_path
# --- Reference implementations ---
# service_provider =
LOADBALANCER:Haproxy:neutron.services.loadbalancer.drivers.haproxy.plugin_driver.HaproxyOnHostPluginDriver:default
service_provider=VPN:openswan:neutron.services.vpn.service_drivers.ipsec.IPsecVPNDriver:default
# In order to activate Radware's lbaas driver you need to uncomment the
next line.
# If you want to keep the HA Proxy as the default lbaas driver, remove the
attribute default from the line below.
# Otherwise comment the HA Proxy line
# service_provider =
LOADBALANCER:Radware:neutron.services.loadbalancer.drivers.radware.driver.LoadBalancerDriver:default
# uncomment the following line to make the 'netscaler' LBaaS provider
available.
#
service_provider=LOADBALANCER:NetScaler:neutron.services.loadbalancer.drivers.netscaler.netscaler_driver.NetScalerPluginDriver
# Uncomment the following line (and comment out the OpenSwan VPN line) to
enable Cisco's VPN driver.
#
service_provider=VPN:cisco:neutron.services.vpn.service_drivers.cisco_ipsec.CiscoCsrIPsecVPNDriver:default
# Uncomment the line below to use Embrane heleos as Load Balancer service
provider.
#
service_provider=LOADBALANCER:Embrane:neutron.services.loadbalancer.drivers.embrane.driver.EmbraneLbaas:default



and ml2_conf.ini:

[ml2]
# (ListOpt) List of network type driver entrypoints to be loaded from
# the neutron.ml2.type_drivers namespace.
#
# type_drivers = local,flat,vlan,gre,vxlan
# Example: type_drivers = flat,vlan,gre,vxlan
type_drivers = flat,vlan,gre
tenant_network_types = vlan,gre
mechanism_drivers = openvswitch
# (ListOpt) Ordered list of network_types to allocate as tenant
# networks. The default value 'local' is useful for single-box testing
# but provides no connectivity between hosts.
#
# tenant_network_types = local
# Example: tenant_network_types = vlan,gre,vxlan

# (ListOpt) Ordered list of networking mechanism driver entrypoints
# to be loaded from the neutron.ml2.mechanism_drivers namespace.
# mechanism_drivers =
# Example: mechanism drivers = openvswitch,mlnx
# Example: mechanism_drivers = arista
# Example: mechanism_drivers = cisco,logger
# Example: mechanism_drivers = openvswitch,brocade
# Example: mechanism_drivers = linuxbridge,brocade

[ml2_type_flat]
# (ListOpt) List of physical_network names with which flat networks
# can be created. Use * to allow flat networks with arbitrary
# physical_network names.
#
# flat_networks =
# Example:flat_networks = physnet1,physnet2
# Example:flat_networks = *

[ml2_type_vlan]
# (ListOpt) List of <physical_network>[:<vlan_min>:<vlan_max>] tuples
# specifying physical_network names usable for VLAN provider and
# tenant networks, as well as ranges of VLAN tags on each
# physical_network available for allocation as tenant networks.
#
# network_vlan_ranges =
# Example: network_vlan_ranges = physnet1:1000:2999,physnet2

[ml2_type_gre]
# (ListOpt) Comma-separated list of <tun_min>:<tun_max> tuples enumerating
ranges of GRE tunnel IDs that are available for tenant network allocation
# tunnel_id_ranges =
 tunnel_id_ranges = 1:1000

[ml2_type_vxlan]
# (ListOpt) Comma-separated list of <vni_min>:<vni_max> tuples enumerating
# ranges of VXLAN VNI IDs that are available for tenant network allocation.
#
# vni_ranges =

# (StrOpt) Multicast group for the VXLAN interface. When configured, will
# enable sending all broadcast traffic to this multicast group. When left
# unconfigured, will disable multicast VXLAN mode.
#
# vxlan_group =
# Example: vxlan_group = 239.1.1.1

[securitygroup]
# Controls if neutron security group is enabled or not.
# It should be false when you use nova security group.
firewall_driver =
neutron.agent.linux.iptables_firewall.OVSHybridIptablesFirewallDriver
enable_security_group = True


Rgds,
John


On Sun, Jul 27, 2014 at 8:22 AM, john decot <johndecot at gmail.com> wrote:

> Hi,
>
>               the is no upstart file in log directory.
>
>
> Regards,
> John.
>
>
> On Sun, Jul 27, 2014 at 8:14 AM, Gangur, Hrushikesh (R & D HP Cloud) <
> hrushikesh.gangur at hp.com> wrote:
>
>>  Do you see any neutron logs getting created in /var/log/upstart
>>
>>
>>
>> *From:* john decot [mailto:johndecot at gmail.com]
>> *Sent:* Saturday, July 26, 2014 6:14 AM
>> *To:* openstack at lists.openstack.org
>> *Subject:* [Openstack] neutron-server cannot start
>>
>>
>>
>> Hi,
>>
>>   I am new to openstack. I am trying to bring neutron-server up but try
>> to fail.
>>
>>
>>
>> output of /etc/init.d/neutron-server status
>>
>>
>>
>> is
>>
>> neutron dead but pid file exists
>>
>>
>>
>> tail -f /var/log/messages is
>>
>>
>>
>> detected unhandled Python exception in '/usr/bin/neutron-server'
>>
>>  Not saving repeating crash in '/usr/bin/neutron-server'
>>
>>
>>
>>
>>
>> direcotry /var/log/neutron is empty
>>
>>
>>
>> Any help is appreciated.
>>
>>
>>
>> Thanking You,
>>
>>
>>
>> Regards,
>>
>> John
>>
>
>
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