Logical router with multiple routing components

We claim: 1. A method for implementing a logical router in a network, the method comprising: at a set of network controllers, receiving a definition of a logical router for implementation by a set of network elements, the definition of the logical router comprising specification of a plurality of interfaces for connecting with an external network; defining a plurality of routing components for the logical router, each of the defined routing components comprising a separate set of routes and separate set of logical interfaces, wherein defining the plurality of routing components comprises: assigning a first one of the plurality of interfaces to a first gateway machine and a second one of the plurality of interfaces to a second gateway machine; defining a first centralized routing component for implementation on the first gateway machine by defining (i) a first interface for the first centralized routing component using configuration details of the first interface assigned to the first gateway machine and (ii) a second interface for the first centralized routing component used to communicate with a distributed routing component; and defining a second centralized routing component for implementation on the second gateway machine by defining (i) a first interface for the second centralized routing component using configuration details of the second interface assigned to the second gateway machine and (ii) a second interface for the second centralized routing component used to communicate with the distributed routing component; and generating data for configuring the set of network elements to implement the plurality of routing components of the logical router in the network. 2. The method of claim 1 , wherein the plurality of routing components comprises the distributed routing component and a plurality of centralized routing components that includes at least the first and second centralized routing components. 3. The method of claim 2 further comprising automatically defining a logical switch for logically handling traffic between the distributed routing component and the plurality of centralized routing components. 4. The method of claim 3 , wherein implementing the plurality of routing components in the network comprises implementing each of the centralized routing components on a single machine and implementing the distributed routing component and logical switch across a plurality of machines. 5. The method of claim 1 , wherein each interface comprises a network address and a data link address. 6. The method of claim 5 , wherein network address data for the first interface of the first centralized routing component is based on network address data for the first one of the plurality of interfaces and network address data for the second interface of the first centralized routing component is generated separately from any configuration details of the definition of the logical router. 7. The method of claim 5 , wherein the second interface of the first centralized routing component and the second interface of the second centralized routing component have different network addresses and different data link layer addresses. 8. The method of claim 5 , wherein the second interface of the first centralized routing component and the second interface of the second centralized routing component have a same network address and different data link layer addresses. 9. The method of claim 1 , wherein defining the plurality of routing components further comprises defining a logical switch with ports to which the second interface of the first centralized routing component, the second interface of the second centralized routing component, and an interface of the distributed routing component all couple. 10. The method of claim 1 , wherein the definition of the logical router is received through an application programming interface (API). 11. The method of claim 1 , wherein the logical router is a first logical router, the method further comprising receiving a definition of a second logical router that connects to an interface of the first logical router. 12. The method of claim 11 , wherein the second logical router only communicates with the external network through the first logical router. 13. The method of claim 12 further comprising defining a single distributed routing component for the second logical router when no stateful services are configured for the second logical router. 14. The method of claim 12 further comprising defining (i) a distributed routing component and (ii) two centralized routing components for the second logical router when stateful services are configured for the second logical router, each of the defined routing components for the second logical router comprising a separate set of routes and a separate set of logical interfaces. 15. The method of claim 14 further comprising defining a logical switch with ports to which an interface of each of the two centralized routing components and a single interface of a distributed routing component of the first logical router couple. 16. The method of claim 14 , wherein a first of the two centralized routing components of the second logical router is designated as active and a second of the two centralized routing components of the second logical router is designated as standby, wherein the first centralized routing component of the second logical router responds to ARP requests and the second centralized routing component of the second logical router does not respond to ARP requests. 17. A non-transitory machine readable medium storing a network controller program which when executed by at least one processing unit implements a logical router in a network, the program comprising sets of instructions for: at the network controller, receiving a definition of a logical router for implementation by a set of network elements, the definition of the logical router comprising specification of a plurality of interfaces for connecting with an external network; defining a plurality of routing components for the logical router, each of the defined routing components comprising a separate set of routes and separate set of logical interfaces, wherein defining the plurality of routing components comprises: assigning a first one of the plurality of interfaces to a first gateway machine and a second one of the plurality of interfaces to a second gateway machine; defining a first centralized routing component for implementation on the first gateway machine by defining (i) a first interface for the first centralized routing component using configuration details of the first interface assigned to the first gateway machine and (ii) a second interface for the first centralized routing component used to communicate with a distributed routing component; and defining a second centralized routing component for implementation on the second gateway machine by defining (i) a first interface for the second centralized routing component using configuration details of the second interface assigned to the second gateway machine and (ii) a second interface for the second centralized routing component used to communicate with the distributed routing component; and generating data for configuring the set of network elements to implement the plurality of routing components of the logical router in the network. 18. The machine readable medium of claim 17 , wherein the plurality of routing components comprises the distributed routing component and a plurality of centralized routing components that includes at least the first and second cent