neutron

History

Kevin Benton fe3a2139a8 Macvtap: Check for no original port in is_live_migration Change `6865f4d9f2` mistakenly assumed that None would not be present for the 'original' property on a PortContext. However, this is the default value for the original field in PortContext, which is what is used in the construction as part of the _create_port_db process in ML2. This resulted in binding failures for the macvtap mech drivers due to an attribute error in cases like brand new ports. This patch simply checks for None before trying to determine if it's a live migration (which it isn't in the case of port creation). Part of the issue is likely that the FakePortContext in the unit tests was defaulting to an empty dict which is the not the same behavior as the real PortContext. Change-Id: I6659235a70aa4528fd21911c04e651194591e449 Closes-Bug: #1658802 (cherry picked from commit `3dddfa56db`)		2017-06-02 09:16:03 +00:00
..
common	Make l2/l3 operations retriable at plugin level	2016-09-12 07:45:38 +00:00
drivers	Macvtap: Check for no original port in is_live_migration	2017-06-02 09:16:03 +00:00
extensions	Avoid KeyError when accessing "dns_name" as it may not exist	2016-08-18 15:43:53 +01:00
README	Metaplugin removal	2015-07-23 19:05:05 +09:00
__init__.py	Empty files should not contain copyright or license	2014-10-20 00:50:32 +00:00
config.py	Change tunnel MTU calculation to support IPv6	2016-07-05 18:07:29 -04:00
db.py	Enable create and delete segments in ML2	2016-08-28 01:24:56 -04:00
driver_api.py	Typo fix	2016-06-16 11:42:57 +03:00
driver_context.py	Allow offloading lookups in driver contexts	2017-05-16 14:39:43 -07:00
managers.py	Enable create and delete segments in ML2	2016-08-28 01:24:56 -04:00
models.py	Switch to 'subquery' for 1-M relationships	2017-03-27 11:03:53 +00:00
plugin.py	Merge "Allow port security updates even without security-groups enabled" into stable/newton	2017-05-27 04:50:17 +00:00
rpc.py	Revert "Setup firewall filters only for required ports"	2017-02-02 15:59:28 +01:00

README

The Modular Layer 2 (ML2) plugin is a framework allowing OpenStack
Networking to simultaneously utilize the variety of layer 2 networking
technologies found in complex real-world data centers. It supports the
Open vSwitch, Linux bridge, and Hyper-V L2 agents, replacing and
deprecating the monolithic plugins previously associated with those
agents, and can also support hardware devices and SDN controllers. The
ML2 framework is intended to greatly simplify adding support for new
L2 networking technologies, requiring much less initial and ongoing
effort than would be required for an additional monolithic core
plugin. It is also intended to foster innovation through its
organization as optional driver modules.

The ML2 plugin supports all the non-vendor-specific neutron API
extensions, and works with the standard neutron DHCP agent. It
utilizes the service plugin interface to implement the L3 router
abstraction, allowing use of either the standard neutron L3 agent or
alternative L3 solutions. Additional service plugins can also be used
with the ML2 core plugin.

Drivers within ML2 implement separately extensible sets of network
types and of mechanisms for accessing networks of those
types. Multiple mechanisms can be used simultaneously to access
different ports of the same virtual network. Mechanisms can utilize L2
agents via RPC and/or interact with external devices or
controllers. By utilizing the multiprovidernet extension, virtual
networks can be composed of multiple segments of the same or different
types. Type and mechanism drivers are loaded as python entrypoints
using the stevedore library.

Each available network type is managed by an ML2 type driver.  Type
drivers maintain any needed type-specific network state, and perform
provider network validation and tenant network allocation. As of the
havana release, drivers for the local, flat, vlan, gre, and vxlan
network types are included.

Each available networking mechanism is managed by an ML2 mechanism
driver. All registered mechanism drivers are called twice when
networks, subnets, and ports are created, updated, or deleted. They
are first called as part of the DB transaction, where they can
maintain any needed driver-specific state. Once the transaction has
been committed, they are called again, at which point they can
interact with external devices and controllers. Mechanism drivers are
also called as part of the port binding process, to determine whether
the associated mechanism can provide connectivity for the network, and
if so, the network segment and VIF driver to be used. The havana
release includes mechanism drivers for the Open vSwitch, Linux bridge,
and Hyper-V L2 agents, and for vendor switches/controllers/etc.
It also includes an L2 Population mechanism driver that
can help optimize tunneled virtual network traffic.

For additional information regarding the ML2 plugin and its collection
of type and mechanism drivers, see the OpenStack manuals and
http://wiki.openstack.org/wiki/Neutron/ML2.