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moby--moby/libnetwork/driverapi/driverapi.go
Madhu Venugopal 9e8974cc64 Replacing isReservedNetwork with Driver capability
Currently store makes use of a static isReservedNetwork check to decide
if a network needs to be stored in the distributed store or not. But it
is better if the check is not static, but be determined based on the
capability of the driver that backs the network.

Hence introducing a new capability mechanism to the driver which it can
express its capability during registration. Making use of first such
capability : Scope. This can be expanded in the future for more such cases.

Signed-off-by: Madhu Venugopal <madhu@docker.com>
2015-06-10 23:59:38 -07:00

137 lines
5.3 KiB
Go

package driverapi
import (
"net"
"github.com/docker/libnetwork/types"
)
// NetworkPluginEndpointType represents the Endpoint Type used by Plugin system
const NetworkPluginEndpointType = "NetworkDriver"
// Driver is an interface that every plugin driver needs to implement.
type Driver interface {
// Push driver specific config to the driver
Config(options map[string]interface{}) error
// CreateNetwork invokes the driver method to create a network passing
// the network id and network specific config. The config mechanism will
// eventually be replaced with labels which are yet to be introduced.
CreateNetwork(nid types.UUID, options map[string]interface{}) error
// DeleteNetwork invokes the driver method to delete network passing
// the network id.
DeleteNetwork(nid types.UUID) error
// CreateEndpoint invokes the driver method to create an endpoint
// passing the network id, endpoint id endpoint information and driver
// specific config. The endpoint information can be either consumed by
// the driver or populated by the driver. The config mechanism will
// eventually be replaced with labels which are yet to be introduced.
CreateEndpoint(nid, eid types.UUID, epInfo EndpointInfo, options map[string]interface{}) error
// DeleteEndpoint invokes the driver method to delete an endpoint
// passing the network id and endpoint id.
DeleteEndpoint(nid, eid types.UUID) error
// EndpointOperInfo retrieves from the driver the operational data related to the specified endpoint
EndpointOperInfo(nid, eid types.UUID) (map[string]interface{}, error)
// Join method is invoked when a Sandbox is attached to an endpoint.
Join(nid, eid types.UUID, sboxKey string, jinfo JoinInfo, options map[string]interface{}) error
// Leave method is invoked when a Sandbox detaches from an endpoint.
Leave(nid, eid types.UUID) error
// Type returns the the type of this driver, the network type this driver manages
Type() string
}
// EndpointInfo provides a go interface to fetch or populate endpoint assigned network resources.
type EndpointInfo interface {
// Interfaces returns a list of interfaces bound to the endpoint.
// If the list is not empty the driver is only expected to consume the interfaces.
// It is an error to try to add interfaces to a non-empty list.
// If the list is empty the driver is expected to populate with 0 or more interfaces.
Interfaces() []InterfaceInfo
// AddInterface is used by the driver to add an interface to the interface list.
// This method will return an error if the driver attempts to add interfaces
// if the Interfaces() method returned a non-empty list.
// ID field need only have significance within the endpoint so it can be a simple
// monotonically increasing number
AddInterface(ID int, mac net.HardwareAddr, ipv4 net.IPNet, ipv6 net.IPNet) error
}
// InterfaceInfo provides a go interface for drivers to retrive
// network information to interface resources.
type InterfaceInfo interface {
// MacAddress returns the MAC address.
MacAddress() net.HardwareAddr
// Address returns the IPv4 address.
Address() net.IPNet
// AddressIPv6 returns the IPv6 address.
AddressIPv6() net.IPNet
// ID returns the numerical id of the interface and has significance only within
// the endpoint.
ID() int
}
// InterfaceNameInfo provides a go interface for the drivers to assign names
// to interfaces.
type InterfaceNameInfo interface {
// SetNames method assigns the srcName and dstPrefix for the interface.
SetNames(srcName, dstPrefix string) error
// ID returns the numerical id that was assigned to the interface by the driver
// CreateEndpoint.
ID() int
}
// JoinInfo represents a set of resources that the driver has the ability to provide during
// join time.
type JoinInfo interface {
// InterfaceNames returns a list of InterfaceNameInfo go interface to facilitate
// setting the names for the interfaces.
InterfaceNames() []InterfaceNameInfo
// SetGateway sets the default IPv4 gateway when a container joins the endpoint.
SetGateway(net.IP) error
// SetGatewayIPv6 sets the default IPv6 gateway when a container joins the endpoint.
SetGatewayIPv6(net.IP) error
// AddStaticRoute adds a routes to the sandbox.
// It may be used in addtion to or instead of a default gateway (as above).
AddStaticRoute(destination *net.IPNet, routeType int, nextHop net.IP, interfaceID int) error
// SetHostsPath sets the overriding /etc/hosts path to use for the container.
SetHostsPath(string) error
// SetResolvConfPath sets the overriding /etc/resolv.conf path to use for the container.
SetResolvConfPath(string) error
}
// DriverCallback provides a Callback interface for Drivers into LibNetwork
type DriverCallback interface {
// RegisterDriver provides a way for Remote drivers to dynamically register new NetworkType and associate with a driver instance
RegisterDriver(name string, driver Driver, capability Capability) error
}
// Scope indicates the drivers scope capability
type Scope int
const (
// LocalScope represents the driver capable of providing networking services for containers in a single host
LocalScope Scope = iota
// GlobalScope represents the driver capable of providing networking services for containers across hosts
GlobalScope
)
// Capability represents the high level capabilities of the drivers which libnetwork can make use of
type Capability struct {
Scope Scope
}