Data storage device and method for efficient data-storage-device-to-data-storage-device copying

What is claimed is: 1 . A data storage device comprising: a memory; and one or more processors, individually or in combination, configured to: operate in a data-storage-device-to-data-storage-device copy mode, wherein in the data-storage-device-to-data-storage-device copy mode, the data storage device is configured to: receive, from a source data storage device via the host, a plurality of blocks of data, parity information for the plurality of blocks of data, and logical-to-physical address translation information for the plurality of blocks of data; write, in the memory, the plurality of blocks of data, the parity information for the plurality of blocks of data, and the logical-to-physical address translation information for the plurality of blocks of data; instead of generating additional parity information for the plurality of blocks of data: determine whether each block of the plurality of blocks of data was written in the memory without error; and in response to determining that an error occurred in writing one of the plurality of blocks of data, re-write that block of data in a different location in the memory; and instead of generating new logical-to-physical address translation information for the plurality of blocks of data, use the logical-to-physical address translation information received from the host. 2 . The data storage device of claim 1 , wherein the one or more processors, individually or in combination, are further configured to: copy one of the plurality of blocks of data written in one block of the memory to a different block of the memory; and maintain a data structure indicating a location of the different block of the memory. 3 . The data storage device of claim 1 , wherein the one or more processors, individually or in combination, are further configured to: receive, from the host, an inquiry as to whether the data storage device supports the data-storage-device-to-data-storage-device copy mode; and inform the host that the data storage device supports the data-storage-device-to-data-storage-device copy mode. 4 . The data storage device of claim 1 , wherein the plurality of blocks of data are received and written on a block-to-block basis. 5 . The data storage device of claim 1 , wherein the plurality of blocks of data are all valid blocks. 6 . The data storage device of claim 1 , wherein the data storage device and the source data storage device are compatible data storage devices. 7 . The data storage device of claim 1 , wherein the data storage device and the source data storage device are both solid state drives. 8 . The data storage device of claim 1 , wherein the memory comprises a three-dimensional memory. 9 . A method for copying data from a source data storage device to a target data storage device, the method comprising: performing in a host in communication with a source data storage device and a target data storage device, wherein the target data storage device operates in a data-storage-device-to-data-storage-device copy mode: reading, from the source data storage device, data, parity information for the data, and logical-to-physical address translation information for the data; sending the data, parity information for the data, and logical-to-physical address translation information for the data to the target data storage device for storage in a memory of the target data storage device; and instructing the target data storage device not to generate additional parity information or new logical-to-physical address translation information for the data, wherein the target data storage device is configured to: instead of generating the additional parity information for the data: determine whether the data was written in the memory without error; and in response to determining that an error occurred in writing the data, re-write the data in a different location in the memory; and instead of generating the new logical-to-physical address translation information for the data, use the logical-to-physical address translation information received from the host. 10 . The method of claim 9 , further comprising: sending, to the target data storage device, an inquiry as to whether the target data storage device supports the data-storage-device-to-data-storage-device copy mode; and receiving, from the target data storage device, an indication that the target data storage device supports the data-storage-device-to-data-storage-device copy mode. 11 . The method of claim 9 , wherein the data is read from the source data storage device and sent to the target data storage device on a block-to-block basis. 12 . The method of claim 9 , further comprising determining that the data is valid data. 13 . The method of claim 9 , wherein the source and target data storage devices are compatible data storage devices. 14 . The method of claim 9 , wherein the source and target data storage devices are both solid state drives. 15 . The method of claim 9 , wherein the memory of the target data storage device comprises a three-dimensional memory. 16 . A data storage device comprising: a memory; and means for operating the data storage device in a data-storage-device-to-data-storage-device copy mode in which the data storage device is configured to: receive, from a source data storage device via the host, a plurality of blocks of data, parity information for the plurality of blocks of data, and logical-to-physical address translation information for the plurality of blocks of data; write, in the memory, the plurality of blocks of data, the parity information for the plurality of blocks of data, and the logical-to-physical address translation information for the plurality of blocks of data; instead of generating additional parity information for the plurality of blocks of data: determine whether each block of the plurality of blocks of data was written in the memory without error; and in response to determining that an error occurred in writing one of the plurality of blocks of data, re-write that block of data in a different location in the memory; and instead of generating new logical-to-physical address translation information for the plurality of blocks of data, use the logical-to-physical address translation information received from the host.