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Embodiments of the invention provide methods and apparatuses for block based storage subsystem to have backup ability to a file based storage service such as HTTP (Hypertext Transfer Protocol) or cloud storage service. In one embodiment, a storage system is coupled via a network to a storage service

Embodiments of the invention provide methods and apparatuses for block based storage subsystem to have backup ability to a file based storage service such as HTTP (Hypertext Transfer Protocol) or cloud storage service. In one embodiment, a storage system is coupled via a network to a storage service which has one or more file servers. The storage system includes a volume-based snapshot control module configured to create a snapshot volume of data at a certain time, the snapshot volume being a block-based volume which is divided into a plurality of portions. A copy control module is configured to read each portion of the snapshot volume and send said each portion as file data to the storage service via the network, and to generate mapping information between an address of said each portion in the storage system and a file identifier of the file data of said each portion in the storage service.

대표청구항 ▼

1. In a system including a storage system coupled via a network to a storage service which has one or more HTTP (Hypertext Transfer Protocol) file servers, the storage system comprising: a processor;a memory;a volume-based snapshot control module configured to create a snapshot volume of data at a c

1. In a system including a storage system coupled via a network to a storage service which has one or more HTTP (Hypertext Transfer Protocol) file servers, the storage system comprising: a processor;a memory;a volume-based snapshot control module configured to create a snapshot volume of data at a certain time, the snapshot volume being a block-based volume which is divided into a plurality of portions; anda copy control module configured to read each portion of the snapshot volume and send said each portion as HTTP file data of an HTTP request to the storage service via the network, and to generate mapping information between an address of said each portion in the storage system and an HTTP URL (Uniform Resource Locator) of the HTTP file data of said each portion in the storage service, so as to allow said each portion of the snapshot volume to be read by the HTTP request using said mapping information;wherein the volume-based snapshot control module is configured to create a next generation snapshot volume at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time;wherein, for each updated portion of the next generation snapshot volume, the copy control module is configured to read the corresponding portion of the snapshot volume at the certain time prior to being updated to said each updated portion and send said corresponding portion as HTTP file data to the storage service via the network, and to generate new mapping information between an address of said corresponding portion in the storage system and an HTTP URL of the HTTP file data of said corresponding portion in the storage service;wherein the volume-based snapshot control module is configured to create a next generation snapshot volume at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time;wherein the volume-based snapshot control module is configured to delete any of the portions of the snapshot volume which have been updated to the updated portions at the next time in the next generation snapshot volume; andwherein the storage system further comprises a resource allocation control module configured to delete the HTTP file data and HTTP URL for the deleted portion when a deleted portion of the snapshot volume has been sent to the storage service as HTTP file data with an HTTP URL. 2. The storage system according to claim 1, wherein the volume-based snapshot control module is configured to create a next generation snapshot volume at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time; andwherein the copy control module is configured to read each updated portion of the next generation snapshot volume and send said each updated portion as HTTP file data to the storage service via the network, and to generate next mapping information between an address of said each updated portion in the storage system and an HTTP URL of the HTTP file data of said each updated portion in the storage service. 3. The storage system according to claim 1, wherein the volume-based snapshot control module is configured to create a next generation snapshot volume at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time; andwherein the copy control module is configured to read each updated portion of the next generation snapshot volume and send said each updated portion as HTTP file data to the storage service via the network, and to generate next mapping information between an address of said each updated portion in the storage system and an HTTP URL of the HTTP file data of said each updated portion in the storage service, the next mapping information including a timestamp of the next time for said each updated portion. 4. The storage system according to claim 1, wherein the portions of the snapshot volume have different sizes. 5. The storage system according to claim 1, wherein, in response to the HTTP request, the copy control module sends to the storage service via the network all the portions of the snapshot volume, to be read by the HTTP request using the mapping information. 6. In a system including a storage system coupled via a network to a storage service which has one or more HTTP (Hypertext Transfer Protocol) file servers, the storage system including a processor and a memory, a method of volume backup comprising: creating a snapshot volume of data in the storage system at a certain time, the snapshot volume being a block-based volume;dividing said block-based snapshot volume into a plurality of portions;reading each portion of the snapshot volume and sending said each portion as HTTP file data of an HTTP request to the storage service via the network;generating mapping information between an address of said each portion in the storage system and an HTTP URL (Uniform Resource Locator) of the HTTP file data of said each portion in the storage service, so as to allow said each portion of the snapshot volume to be read by the HTTP request using said mapping information;creating a next generation snapshot volume in the storage system at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time;for each updated portion of the next generation snapshot volume, reading the corresponding portion of the snapshot volume at the certain time prior to being updated to said each updated portion and sending said corresponding portion as HTTP file data to the storage service via the network, and generating new mapping information between an address of said corresponding portion in the storage system and an HTTP URL of the HTTP file data of said corresponding portion in the storage service;creating a next generation snapshot volume at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time;deleting any of the portions of the snapshot volume which have been updated to the updated portions at the next time in the next generation snapshot volume; anddeleting the HTTP file data and HTTP URL for the deleted portion when a deleted portion of the snapshot volume has been sent to the storage service as HTTP file data with an HTTP URL. 7. The method according to claim 6, further comprising: creating a next generation snapshot volume in the storage system at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time;reading each updated portion of the next generation snapshot volume and sending said each updated portion as HTTP file data to the storage service via the network; andgenerating next mapping information between an address of said each updated portion in the storage system and an HTTP URL of the HTTP file data of said each updated portion in the storage service. 8. The method according to claim 6, further comprising: creating a next generation snapshot volume in the storage system at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time;reading each updated portion of the next generation snapshot volume and sending said each updated portion as HTTP file data to the storage service via the network; andgenerating next mapping information between an address of said each updated portion in the storage system and an HTTP URL of the HTTP file data of said each updated portion in the storage service, the next mapping information including a timestamp of the next time for said each updated portion. 9. The method according to claim 6, wherein the portions of the snapshot volume have different sizes. 10. The method according to claim 6, further comprising: reading, by the HTTP request using the mapping information, all the portions of the snapshot volume sent to the storage service via the network. 11. A non-transitory computer readable storage medium storing a plurality of instructions for controlling a data processor to perform volume backup for a storage system coupled via a network to a storage service which has one or more HTTP (Hypertext Transfer Protocol) file servers, the plurality of instructions comprising: instructions that cause the data processor to create a snapshot volume of data in the storage system at a certain time, the snapshot volume being a block-based volume which is divided into a plurality of portions;instructions that cause the data processor to read each portion of the snapshot volume and send said each portion as HTTP file data of an HTTP request to the storage service via the network;instructions that cause the data processor to generate mapping information between an address of said each portion in the storage system and an HTTP URL (Uniform Resource Locator) of the HTTP file data of said each portion in the storage service, so as to allow said each portion of the snapshot volume to be read by the HTTP request using said mapping information;instructions that cause the data processor to create a next generation snapshot volume in the storage system at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time;instructions that cause the data processor, for each updated portion of the next generation snapshot volume, to read the corresponding portion of the snapshot volume at the certain time prior to being updated to said each updated portion and send said corresponding portion as HTTP file data to the storage service via the network, and generate new mapping information between an address of said corresponding portion in the storage system and an HTTP URL of the HTTP file data of said corresponding portion in the storage service;instructions that cause the data processor to create a next generation snapshot volume at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time;instructions that cause the data processor to delete any of the portions of the snapshot volume which have been updated to the updated portions at the next time in the next generation snapshot volume; andinstructions that cause the data processor to delete the file data and HTTP URL for the deleted portion when a deleted portion of the snapshot volume has been sent to the storage service as HTTP file data with an HTTP URL. 12. The non-transitory computer readable storage medium according to claim 11, wherein the plurality of instructions further comprise: instructions that cause the data processor to create a next generation snapshot volume in the storage system at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time;instructions that cause the data processor to read each updated portion of the next generation snapshot volume and send said each updated portion as HTTP file data to the storage service via the network; andinstructions that cause the data processor to generate next mapping information between an address of said each updated portion in the storage system and an HTTP URL of the HTTP file data of said each updated portion in the storage service. 13. The non-transitory computer readable storage medium according to claim 11, wherein the plurality of instructions further comprise: instructions that cause the data processor to create a next generation snapshot volume in the storage system at a next time after the certain time, the next generation snapshot volume being a block-based volume which is divided into a plurality of next portions, the plurality of next portions including one or more updated portions at the next time which are updated from corresponding one or more of the portions of the snapshot volume at the certain time;instructions that cause the data process or to read each updated portion of the next generation snapshot volume and send said each updated portion as HTTP file data to the storage service via the network; andinstructions that cause the data processor to generate next mapping information between an address of said each updated portion in the storage system and an HTTP URL of the HTTP file data of said each updated portion in the storage service, the next mapping information including a timestamp of the next time for said each updated portion. 14. The non-transitory computer readable storage medium according to claim 11, wherein the portions of the snapshot volume have different sizes. 15. The non-transitory computer readable storage medium according to claim 11, wherein the plurality of instructions further comprise: instructions that cause the data processor, in response to the HTTP request, to send to the storage service via the network all the portions of the snapshot volume, to be read by the HTTP request using the mapping information.