Non-disruptively migrating virtual disks using virtualization appliance

What is claimed is: 1. A method of non-disruptively migrating virtual disks between storage arrays, the method comprising: directing, by a server that runs a virtual machine, IO (Input/Output) requests issued by the virtual machine to a virtual disk in a first storage array, the virtual disk storing data of the virtual machine and the IO requests specifying reads and writes of the virtual disk; configuring a virtualization appliance to present an image of the virtual disk to the server and to synchronize two background versions of the virtual disk, the two background versions including the virtual disk in the first storage array and another virtual disk in a second storage array; and after configuring the virtualization appliance, redirecting, by the server, IO requests issued by the virtual machine to the image of the virtual disk in the virtualization appliance, the virtualization appliance thereby synchronizing the two background versions of the virtual disk to effect migration of the virtual disk from the first storage array to the second storage array. 2. The method of claim 1 , wherein redirecting IO requests to the virtualization appliance is part of performing a first migration operation, the first migration operation non-disruptively migrating the virtual disk from the first storage array to the virtualization appliance. 3. The method of claim 2 , further comprising, after performing the first migration operation, performing a second migration operation, the second migration operation including redirecting, by the server, IO requests issued by the virtual machine to the other virtual disk in the second storage array to non-disruptively migrate the virtual disk from the virtualization appliance to the second storage array. 4. The method of claim 3 , wherein the first storage array realizes the virtual disk as an internal file of an internal file system in the first storage array, wherein the virtual disk realized by the internal file is accessible to the server, and wherein the internal file system in which the internal file resides is hidden from the server. 5. The method of claim 3 , wherein the first migration operation and the second migration operation are performed under direction of a management server, the management server having a first workflow defined for performing the first migration operation and a second workflow defined for performing the second migration operation. 6. The method of claim 5 , further comprising: the management server coordinating with a storage provider running on the first storage array and with a storage provider running on the virtualization appliance to perform the first migration operation; and the management server coordinating with a storage provider running on the second storage array and with the storage provider running on the virtualization appliance to perform the second migration operation, wherein each storage provider includes an API (application programmer interface) for communicating storage information about the storage array or virtualization appliance on which it runs with the management server. 7. The method of claim 6 , wherein the virtualization appliance is realized with at least one software component running on the first storage array and with at least one software component running on the second storage array. 8. The method of claim 6 , wherein the virtualization appliance is realized as at least one hardware unit distinct from the first storage array and the second storage array but connected to both the first storage array and the second storage array. 9. The method of claim 6 , further comprising non-disruptively migrating the virtual machine from the server to a second server, the virtual machine migrated to the second server accessing, as its virtual disk, the other virtual disk on the second storage array. 10. The method of claim 2 , wherein providing synchronization between the two background versions of the virtual disk includes copying data from the virtual disk in the first storage array to the other virtual disk in the second storage array, and wherein performing the second migration operation is performed after completely copying the data from the virtual disk in the first storage array to the other virtual disk in the second storage array. 11. An apparatus, comprising control circuitry that includes a set of processing units coupled to memory, the control circuitry constructed and arranged to: direct IO (Input/Output) requests issued by a virtual machine that runs on the apparatus to a virtual disk in a first storage array, the virtual disk storing data of the virtual machine and the IO requests specifying reads and writes of the virtual disk; configure a virtualization appliance to present an image of the virtual disk to the server and to synchronize two background versions of the virtual disk, the two background versions including the virtual disk in the first storage array and another virtual disk in a second storage array; and after configuring the virtualization appliance, redirect, by the server, IO requests issued by the virtual machine to the image of the virtual disk in the virtualization appliance, the virtualization appliance thereby synchronizing the two background versions of the virtual disk to effect non-disruptive migration of the virtual disk from the first storage array to the second storage array. 12. The apparatus of claim 11 , wherein the control circuitry, when constructed and arranged to redirect IO requests, is further constructed and arranged to redirect IO requests to the virtualization appliance as part of performing a first migration operation, the first migration operation non-disruptively migrating the virtual disk from the first storage array to the virtualization appliance, and wherein, the control circuitry, after performing the first migration operation, is further constructed and arranged to perform a second migration operation, the second migration operation including redirecting, by the server, IO requests issued by the virtual machine to the other virtual disk in the second storage array to non-disruptively migrate the virtual disk from the virtualization appliance to the second storage array. 13. A computer program product including a set of non-transitory, computer-readable media having instructions which, when executed by control circuitry of a server, cause the control circuitry to perform a method for non-disruptively migrating virtual disks between storage arrays, the method comprising: directing, by the server, IO (Input/Output) requests issued by a virtual machine that runs on the server to a virtual disk in a first storage array, the virtual disk storing data of the virtual machine and the IO requests specifying reads and writes of the virtual disk; configuring a virtualization appliance to present an image of the virtual disk to the server and to synchronize two background versions of the virtual disk, the two background versions including the virtual disk in the first storage array and another virtual disk in a second storage array; and after configuring the virtualization appliance, redirecting, by the server, IO requests issued by the virtual machine to the image of the virtual disk in the virtualization appliance, the virtualization appliance thereby synchronizing the two background versions of the virtual disk to effect migration of the virtual disk from the first storage array to the second storage array. 14. The computer program product of claim 13 , wherein the method further comprises the first storage array realizing the virtual disk as an internal file of an internal file system in the first sto