Device Control Profile for a Fabric Network

1. A non-transitory, computer-readable medium having stored thereon instructions for remotely passively rendezvousing with a device joining a network, wherein the instructions are configured to cause a processor to: receive, at an assisting device, a remote passive rendezvous request from a commissioning device, wherein the commissioning device manages access to a fabric on which the assisting device resides, and the assisting device is configured to assist a joining device that is remote from the commissioning device in joining the network, and, in response to receiving the remote passive rendezvous request, the assisting device passively waits for a connection from the joining device through a network interface, the passive waiting including enabling the network interface of the assisting device to receive a connection from the joining device for the purpose of facilitating a communication tunnel between the commissioning device and the joining device, and wherein the remote passive rendezvous request comprises: a rendezvous timeout field that indicates how long the network interface of the assisting device is to be enabled to receive the connection from the joining device; and a filter address that identifies the joining device for which the assisting device is to communicate with via the communication tunnel.

2. The non-transitory, computer-readable medium of claim 1 , wherein the remote passive rendezvous request comprises an inactivity timeout field that indicates a period of time of inactivity after which the assisting device is to disable the network interface of the assisting device to receive the connection from the joining device as having been inactive for an impermissible amount of time.

3. The non-transitory, computer-readable medium of claim 2 , wherein the instructions are configured to cause the processor to: terminate the remote passive rendezvous request if a period of inactivity exceeds the permissible period of time for inactivity indicated in the remote passive rendezvous request; and send an indication of termination of the remote passive rendezvous request to the commissioning device.

4. The non-transitory, computer-readable medium of claim 2 , wherein: the rendezvous timeout field comprises an allocation of 2 bytes of data; the inactivity timeout field comprises an allocation of 2 bytes of data; and the filter mode identifier comprises an allocation of 8 bytes of data.

5. The non-transitory, computer-readable medium of claim 1 , wherein the instructions are configured to cause the processor to: terminate the remote passive rendezvous request if the remote passive rendezvous request beyond an amount of time indicated in the rendezvous timeout field of the remote passive rendezvous request; and send an indication of termination of the remote passive rendezvous attempt to the commissioning device.

6. The non-transitory, computer-readable medium of claim 1 , wherein the filter address comprises a media access control address for the joining device, and wherein the instructions are configured to cause the processor to deny a rendezvous with a device attempting to rendezvous with the assisting device with a media access control address that does not match the filter address.

7. The non-transitory, computer-readable medium of claim 1 , wherein the instructions are configured to cause the processor to: respond to the remote passive rendezvous request with a status report; establish a transmission control protocol connection with the joining device via an unsecure port; and send an indication to the commissioning device that the transmission control protocol connection with the joining device has been established.

8. The non-transitory, computer-readable medium of claim 7 , wherein the instructions are configured to cause the processor to: receive data from the commissioning device intended for the joining device; forward the data from the commissioning device to the joining device via the TCP connection; receive data from the joining device via the TCP connection intended for the commissioning device; and forward the data from the joining device to the commissioning device.

9. A method for remotely passively rendezvousing with a device joining a network, comprising: receiving, at an assisting device, a remote passive rendezvous request from a commissioning device that is remote from the joining device, wherein the commissioning device manages access to a fabric on which the assisting device resides, and, in response to receiving the remote passive rendezvous request, the assisting device passively waits for a connection from the joining device through a network interface, the passive waiting including enabling the network interface of the assisting device to receive a connection from the joining device for the purpose of facilitating a communication tunnel between the commissioning device and the joining device, and wherein the remote passive rendezvous request comprises: a rendezvous timeout field that indicates how long the network interface of the assisting device is to be enabled to receive the connection from the joining device; and a filter address that identifies the joining device for which the assisting device is to communicate with via the communication tunnel.

10. The method of claim 9 , comprising receiving, at the network interface from a remote device, a reset configuration request, wherein the reset configuration request comprises a request to reset configuration data stored relating to a fabric, a local area network, or service to which the network interface connects, wherein resetting configuration data comprises deleting credentials and identifiers for the fabric, the local area network, or the service.

11. The method of claim 10 , wherein the reset configuration request comprises: a service flag that indicates whether service configuration data should be reset; a local area network flag that indicates whether service configuration data for the local area network should be reset; and a fabric flag that indicates whether the fabric configuration data should be reset, wherein the reset configuration request comprises a data allocation of 2 bytes.

12. The method of claim 10 , comprising receiving an arm failsafe request having an arm mode field that indicates a failsafe mode type for a failsafe that is to be used to indicate a type of failsafe mode to be armed for a fabric provisioning attempt, wherein the failsafe mode type comprises: a new arm mode, wherein the new arm mode sets a new failsafe; a reset arm mode, wherein the reset arm mode resets a timer for an existing failsafe and continues the arm; and a resume existing arm mode, wherein the resume existing arm mode starts the existing failsafe where it has previously halted.

13. The method of claim 12 , wherein the arm mode field is allocated 1 byte of data, wherein: a value of 0x01 indicates that the arm mode type is the new arm mode; a value of 0x02 indicates that the arm mode type is the reset arm mode; and a value of 0x03 indicates that the arm mode type is the resume existing arm mode.

14. The method of claim 12 , wherein the arm failsafe request comprises a failsafe token that is configured to identify the arm failsafe request and enable validation of the arm failsafe request, wherein the failsafe token comprises a 4-byte arbitrary value that is generated uniquely for each arm failsafe request and configured to uniquely identify the arm failsafe request as corresponding to the remote passive rendezvous request.

15. An electronic device, comprising: a network interface; memory; and a processor, wherein the processor is configured to: receive, via the network interface, a remote passive rendezvous request from a commissioning device, wherein the commissioning device manages access to a fabric on which the assisting device resides, and the assisting device is configured to assist a joining device that is remote from the assisting device in joining the network, and, in response to receiving the remote passive rendezvous request, the assisting device passively waits for a connection from the joining device remotely through a network interface, the passive waiting including enabling the network interface of the assisting device to receive a connection from the joining device for the purpose of facilitating a communication tunnel between the commissioning device and the joining device, and wherein the remote passive rendezvous request comprises: a rendezvous timeout field that indicates how long the network interface of the assisting device is to be enabled to receive the connection from the joining device; and a filter address that identifies the joining device for which the assisting device is to communicate with via the communication tunnel.

16. The electronic device of claim 15 , wherein the processor is configured to: receive, via the network interface, an enable connection monitor request that is configured to enable a fabric echo-based connection liveness monitor on a transmission control protocol or uniform datagram protocol connection monitoring between the commissioning device and the assisting device; and send, via the network interface, a status report indicating whether the connection monitor has successfully been enabled.

17. The electronic device of claim 16 , wherein the enable connection monitor request comprises: a connection monitor timeout field that indicates how long a connection monitor can remain idle before the connection monitor is terminated; and a connection monitor interval field that indicates how frequently an update is sent to commissioning device.

18. The electronic device of claim 17 , wherein the connection monitor field is allocated 2 bytes of data, and the connection monitor interval field is allocated 2 bytes of data, and wherein the processor is configured to: receive, via the network interface, an echo request with an exchange identifier; and send, via the network interface, an echo response with the exchange identifier, wherein the exchange identifier is configured to indicate that the echo response corresponds to the echo request.

19. The electronic device of claim 15 , wherein the processor is configured to: send, via the network interface, a disable connection monitor to terminate the connection monitor; and receive, via the network interface, a status report indicating whether the commissioning device has received the disable connection monitor and disabled the connection monitor.

20. The electronic device of claim 16 , wherein the processor is configured to receive, via the network interface, a reset configuration request, wherein the reset configuration request comprises a request to reset configuration data stored relating to a fabric, a local area network, or service to which the network interface connects, wherein resetting configuration data comprises deleting credentials and identifiers for the fabric, the local area network, or the service.