Controlling route

The invention claimed is: 1. A method of controlling an Ethernet Virtual Private Networks (EVPN) route, comprising: receiving, by a first Virtual eXtensible Local Area Network Tunnel End Point (VTEP) device, an EVPN route from a second VTEP device; checking, by the first VTEP device, whether the EVPN route carries a role attribute; and controlling, by the first VTEP device, distribution of the EVPN route according to a set route synchronization control strategy when determining that the EVPN route carries a role attribute and the carried role attribute has a specified first role attribute value. 2. The method according to claim 1 , wherein controlling the distribution of the EVPN route according to the set route synchronization control strategy comprises: sending, by the first VTEP device, first host information carried by the EVPN route to a server connected to the device; receiving, by the first VTEP device, a query result returned by the server; distributing, by the first VTEP device, the EVPN route to a VTEP device other than the second VTEP device when the query result indicates that the first host information matches a set route synchronization rule; and prohibiting, by the first VTEP device, distributing the EVPN route to a VTEP device other than the second VTEP device when the query result indicates that the first host information does not match the set route synchronization rule. 3. The method according to claim 1 , wherein controlling the distribution of the EVPN route according to the set route synchronization control strategy comprises: checking, by the first VTEP device, whether first host information carried by the EVPN route matches a route synchronization rule locally stored in the device; distributing, by the first VTEP device, the EVPN route to a VTEP device other than the second VTEP device when the first host information matches the route synchronization rule; and prohibiting, by the first VTEP device, distributing the EVPN route to a VTEP device other than the second VTEP device when the first host information does not match the set route synchronization rule. 4. The method according to claim 2 , wherein distributing the EVPN route to the VTEP device other than the second VTEP device comprises: determining, by the first VTEP device, a network identifier in the set route synchronization rule matching the first host information carried by the EVPN route; and distributing, by the first VTEP device, the EVPN route to a VTEP device in a network corresponding to the network identifier. 5. The method according to claim 1 , wherein controlling the distribution of the EVPN route according to the set route synchronization control strategy comprises: prohibiting, by the first VTEP device, distributing the EVPN route to a VTEP device other than the second VTEP device. 6. The method according to claim 1 , further comprising: registering, by the first VTEP device, first host information carried by the received EVPN route on a server connected to the device; receiving, by the first VTEP device, a query request message from a third VTEP device, wherein the query request message is sent when the EVPN route is not locally present in the third VTEP device and a first host is to be accessed by a second host; the first host is a host corresponding to the first host information; the second host is a host connected to the third VTEP device; and the query request message carries the first host information; sending, by the first VTEP device, the query request message to the server; and distributing, by the first VTEP device, the EVPN route to the third VTEP device according to a response message returned by the server, wherein the response message is sent when the server obtains the first host information from locally registered host information in response to the query request message and the first host information matches a set route synchronization rule. 7. The method according to claim 1 , further comprising: receiving, by the first VTEP device, a query request message from a third VTEP device, wherein the query request message is sent when the EVPN route is not locally present in the third VTEP device and a first host is to be accessed by a second host; the first host is a host corresponding to first host information carried by the EVPN route; the second host is a host connected to the third VTEP device; and the query request message carries the first host information; and distributing, by the first VTEP device, the EVPN route to the third VTEP device when determining that the first host information is present in local host information and that a route synchronization rule matching the first host information is locally present. 8. The method according to claim 6 , further comprising: sending, by the first VTEP device, a response message to the third VTEP device; receiving, by the first VTEP device, a reply packet sent by the third VTEP device based on the response message, wherein the reply packet carries the first host information; and obtaining, by the first VTEP device, the first host information from the received reply packet. 9. The method according to claim 3 , wherein distributing the EVPN route to the VTEP device other than the second VTEP device comprises: determining, by the first VTEP device, a network identifier in the route synchronization rule matching the first host information carried by the EVPN route; and distributing, by the first VTEP device, the EVPN route to a VTEP device in a network corresponding to the network identifier. 10. The method according to claim 7 , further comprising: sending, by the first VTEP device, a response message to the third VTEP device; receiving, by the first VTEP device, a reply packet sent by the third VTEP device based on the response message, wherein the reply packet carries the first host information; and obtaining, by the first VTEP device, the first host information from the received reply packet. 11. A device for controlling an Ethernet Virtual Private Networks (EVPN) route, the device being applied to a first Virtual eXtensible Local Area Network Tunnel End Point (VTEP) device and comprising: a processor; and a non-transitory storage medium storing machine-executable instructions, wherein by reading and executing the machine-executable instructions, the processor is caused to: receive an EVPN route from a second VTEP device; check whether the EVPN route carries a role attribute; and control distribution of the EVPN route according to a set route synchronization control strategy when determining that the EVPN route carries a role attribute and the carried role attribute has a specified first role attribute value. 12. The device according to claim 11 , wherein, when controlling the distribution of the EVPN route according to the set route synchronization control strategy, the processor is further caused by the machine-executable instructions to: send first host information carried by the EVPN route to a server connected to the device; receive a query result returned by the server; distribute the EVPN route to a VTEP device other than the second VTEP device when the query result indicates that the first host information matches a set route synchronization rule; and prohibit distributing the EVPN route to a VTEP device other than the second VTEP device when the query result indicates that the first host information does not match a route synchronization rule. 13. The device according to claim 11 , wherein, when controlling the distribution of the EVPN route according to the route synchronization control strategy, the processor is further caused by the machi