Systems and methods for preventing service disruption during software updates

What is claimed is: 1. A method for preventing service disruptions in a computing system, comprising: receiving, at a cloud-based computing system, a plurality of messages for initiating software updates requiring system reboots by a plurality of remote computing machines, where each said message is sent by a respective one of the remote computing machines to itself through a hosted maintenance service; and performing operations by the cloud-based computing system to schedule maintenance operations across the plurality of remote computing machines for a performance of the system reboots in a one-machine-at-a-time manner, where the operations comprise sequencing the plurality of messages across the remote computing machines so as to ensure that an operational state of only one remote computing machine of the plurality of remote computing machines is transitioned from an online state to an offline state at any given time; and making the plurality of messages available to the remote computing machines in accordance with the sequencing. 2. The method according to claim 1 , wherein the maintenance operations are scheduled based on at least one of a load of a remote computing machine, an operational capacity of the remote computing machine, a type of operations being performed by the remote computing machine, a time of day, an operational state of the remote computing machine, and a state of connectivity of the plurality of remote computing machines. 3. The method according to claim 1 , wherein the software updates and system reboots for the plurality of remote computing machines are scheduled in an order that is different than an order in which the messages were received by the cloud-based computing system. 4. The method according to claim 1 , wherein the software updates and system reboots for the plurality of remote computing machines are scheduled in an order that is the same as an order in which the messages were received by the cloud-based computing system. 5. The method according to claim 1 , wherein the operational state of the remote computing machine is transitioned from the online state to the offline state in response to the remote computing machine's retrieval of a respective message of the plurality of messages from the cloud-based computing system. 6. The method according to claim 1 , wherein the operational state of the remote computing machine is transitioned from the offline state to the online state when the remote computing machine completes a system reboot. 7. The method according to claim 1 , further comprising: receiving, at the cloud-based computing system, a notification indicating that a first one of the plurality of remote computing machines has completed a first software update and first system reboot; and in response to the notification, performing operations by the cloud-based computing system to initiate a second software update and a second system reboot at a second one of the plurality of remote computing machines. 8. The method according to claim 1 , further comprising performing operations by a first machine of the plurality of remote computing machines to determine if a first software update is needed that requires a first system reboot. 9. The method according to claim 8 , further comprising automatically scheduling the first software update by the first machine if the first software update does not require the first system reboot. 10. The method according to claim 8 , further comprising communicating a first message of the plurality of messages from the first machine to the cloud-based computing system if the first software update does require the first system reboot. 11. A cloud-based computing system, comprising: a processor; and a non-transitory computer-readable storage medium comprising programming instructions that are configured to cause the processor to implement a method for preventing service disruptions in the cloud-based computing system, wherein the programming instructions comprise instructions to: receive a plurality of messages for initiating software updates requiring system reboots by a plurality of remote computing machines, where each said message is sent by a respective one of the remote computing machines to itself through a hosted maintenance service; and schedule maintenance operations across the plurality of remote computing machines for a performance of the system reboots in a one-machine-at-a-time manner by sequencing the plurality of messages across the remote computing machines so as to ensure that an operational state of only one remote computing machine of the plurality of remote computing machines is transitioned from an online state to an offline state at any given time by scheduling the software updates and system reboots in a one-machine-at-a-time manner, and making the plurality of messages available to the remote computing machines in accordance with the sequencing. 12. The cloud-based computing system according to claim 11 , wherein the maintenance operations are scheduled based on at least one of a load of a remote computing machine, an operational capacity of the remote computing machine, a type of operations being performed by the remote computing machine, a time of day, an operational state of the remote computing machine, and a state of connectivity of the plurality of remote computing machines. 13. The cloud-based computing system according to claim 11 , wherein the software updates and system reboots for the plurality of remote computing machines are scheduled in an order that is different than an order in which the messages were received by the cloud-based computing system. 14. The cloud-based computing system according to claim 11 , wherein the software updates and system reboots for the plurality of remote computing machines are scheduled in an order that is the same as an order in which the messages were received by the cloud-based computing system. 15. The cloud-based computing system according to claim 11 , wherein the operational state of the remote computing machine is transitioned from the online state to the offline state in response to the remote computing machine's retrieval of a respective message of the plurality of messages from the cloud-based computing system. 16. The cloud-based computing system according to claim 11 , wherein the operational state of the remote computing machine is transitioned from the offline state to the online state when the remote computing machine completes a system reboot. 17. The cloud-based computing system according to claim 11 , wherein the programming instructions comprise instructions to: receive a notification indicating that a first one of the plurality of remote computing machines has completed a first software update and first system reboot; and cause a second software update and a second system reboot to be initiated at a second one of the plurality of remote computing machines, in response to the notification. 18. The cloud-based computing system according to claim 11 , wherein a first machine of the plurality of remote computing machines is configured to determine if a first software update is needed that requires a first system reboot. 19. The cloud-based computing system according to claim 18 , wherein the first machine automatically schedules the first software update if the first software update does not require the first system reboot. 20. The cloud-based computing system according to claim 18 , wherein the first machine communicates a first message of the plurality of messa