Intent-based, network-aware network device software-upgrade scheduling

What is claimed is: 1. A system that manages a plurality of network devices of a network, the system comprising one or more processing units implemented in circuitry and configured to: receive an upgrade request and at least one policy specifying an objective that is a minimum objective or a maximum objective for the network; obtain a redundancy model indicative of redundancy information for the network, wherein the redundancy model comprises one of: (1) a network device model that includes device redundancy information indicating a device redundancy for a first network device and a second network device of the network devices, or (2) a service model that includes service redundancy information indicating a service redundancy for a service, wherein to obtain the redundancy model, the one or more processing units are configured to obtain a unified intent model that comprises the network device model and the service model and wherein the unified intent model comprises a graph database configured to graphically represent at least one of the device redundancy information or the service redundancy information, the graph database including a plurality of nodes representing one or more network resources and edges between the nodes representing the at least one of the device redundancy information or the service redundancy information; determine, based on the upgrade request and the model, an update graph having update graph nodes each representing one of the network devices or the service, the update graph also having at least one edge that connects two of the update graph nodes and that indicates the device redundancy or the service redundancy; determine, based on the update graph including the at least one edge and the at least one policy, an update schedule for performing an update of software for the network devices that ensures availability for the first network device or second network device or availability for the service; and update the software of each of the network devices according to the update schedule. 2. The system of claim 1 , wherein the redundancy model comprises a modified YANG or YAML data model that comprises the device redundancy information or the service redundancy information. 3. The system of claim 1 , wherein the network device model comprises syntax to indicate an alternate network device of the network devices for a network device of the network devices. 4. The system of claim 3 , wherein the syntax comprises a “device-id” property to indicate a device identifier for the network device and the syntax comprises an “alternate-device” property to indicate an alternate device identifier for the alternate network device. 5. The system of claim 1 , wherein the service model comprises: first syntax for a link and an alternate link; or second syntax for a node and an alternate node. 6. The system of claim 5 , wherein the first syntax comprises a “link-id” property to indicate a link identifier and the first syntax comprises an “alternate-link” property to indicate an alternate link identifier. 7. The system of claim 5 , wherein the second syntax comprises a “node-id” property to indicate a node identifier and the second syntax comprises “alternate-node” property to indicate an alternate node identifier. 8. The system of claim 1 , wherein to obtain the redundancy model, the one or more processing units are configured to obtain a unified intent model that comprises the network device model and the service model. 9. The system of claim 8 , wherein the unified intent model comprises a graph database configured to graphically represent at least one of the device redundancy information or the service redundancy information. 10. The system of claim 1 , wherein the upgrade request comprises a device selector that selects the network devices based on a tag or role of the network devices. 11. The system of claim 1 , wherein the upgrade request comprises at least one policy for specifying an objective function having a minimum objective or maximum objective for the network. 12. The system of claim 11 , wherein the at least one policy specifies at least one of: a maximum down-time for any network device; a maximum number of connections that may be down at any one time; a latest-permissible upgrade completion date; a maximum percent of devices that to be upgraded at any one time; a maximum upgrade-window duration; or an upgrade priority based on devices having the most subscribers. 13. The system of claim 1 , wherein the one or more processing units are further configured to receive a criteria definition that defines new criteria for performing the update of the software, wherein the upgrade request specifies the new criteria. 14. The system of claim 1 , wherein to obtain the redundancy model, the one or more processing units are configured to receive the service redundancy information from the service. 15. The system of claim 1 , wherein to obtain the redundancy model, the one or more processing units are configured to determine, based on the service, the redundancy information for the network. 16. A system that manages a plurality of network devices, the system comprising one or more processing units implemented in circuitry and configured to: receive an upgrade request; determine, based on the upgrade request, an upgrade graph having nodes each representing one of the network devices or a network service provided by the network, the upgrade graph also having one or more edges each connecting two of the nodes and representing a network redundancy or service dependency; compute and assign, for each edge of the edges, an edge weight to the edge by combining results of at least one objective function, each of the at least one objective function having a minimum objective or maximum objective for the network; partition the upgrade graph into a plurality of sub-groups based on the edge weights, wherein each of the sub-groups comprises nodes representing respective network devices; refine at least one of the sub-groups based on at least one of device-specific upgrade criteria, a maximum number of parallel upgrades allowed, or a number of upgrades in a maintenance window; determine an upgrade schedule in which, for each of the sub-groups, the system is to concurrently perform an upgrade of software for all network devices represented by a node in the sub-group; and upgrade the software of each of the plurality of network devices according to the upgrade schedule. 17. The system of claim 16 , wherein to determine the upgrade schedule based on the sub-groups, the one or more processing units are configured to determine a plurality of maintenance slots, wherein each maintenance slot comprises a set of devices from the same sub-group. 18. The system of claim 16 , wherein the upgrade request comprises at least one policy for specifying one of the at least one objective function. 19. The system of claim 16 , wherein to partition the upgrade graph into plurality of sub-groups, the one or more processing units are configured to reduce sum of the edge weights of all edges connecting any two sub-groups. 20. The system of claim 16 , wherein the one or more processing units are further configured to compute and assign, for each node of the nodes, a node weight to the node, wherein to partition the upgrade graph into plurality of sub-groups, the one or more processing units are configured to evenly distribute sum of all node weights between the sub-groups.