The present invention relates generally to the data processing field, and more particularly, relates to a storage area network (SAN) management and configuration method and apparatus via enabling in-band communications.
Some known storage area network arrangements, for example, in a serial storage architecture (SSA), device driver writers and host based adapter (HBA) vendors provide a complex set of micro code calls. A management program would then interrogate the HBA, using micro code calls specific to the particular HBA vendor and model, then interpret the results in a way that is specific to that particular HBA vendor and model.
One problem with this arrangement is that an in-depth understanding is needed for every HBA model of every vendor, which in the case of Fibre Channel, is impractical. There are too many vendors and too many models to implement this approach.
Another problem is that certain HBA models from certain vendors simply cannot support the necessary micro code calls to enable the devices to be managed, and thus prohibiting a SAN management program from working with these devices.
A need exists for a mechanism for communicating with devices in-band or over the fibre cable, allowing maximized flexibility, in a vendor and device independent manner.
A principal object of the present invention is to provide a storage area network (SAN) management and configuration method and apparatus via enabling in-band communications. Other important objects of the present invention are to provide such storage area network (SAN) management and configuration method and apparatus via enabling in-band communications substantially without negative effect and that overcome many of the disadvantages of prior art arrangements.
In brief, a method and apparatus are provided to enable in-band communications for storage area network (SAN) management and configuration. In the storage area network (SAN) management and configuration method, a SAN management application is utilized for communicating with a device driver. A pass through is provided by the device driver through a host bus adapter (HBA), for passing communications to a device in the storage area network from the SAN management application.
The apparatus for enabling in-band communications includes a storage area network (SAN) management application for communicating with at least one SAN-connected host system. Each SAN-connected host system includes a management application agent for communicating with a host bus adapter (HBA) device driver. The HBA device driver is provided for communicating with a device in the storage area network. The HBA device driver includes at least one pass through service for passing a plurality of commands to the device in the storage area network.
In accordance with features of the invention, the management application agent provides predefined, fibre channel standard, protocol functions for communicating with the device in the storage area network. The predefined protocol functions include a common transport (CT) protocol function and an extended link service (ELS) protocol function.
The present invention together with the above and other objects and advantages may best be understood from the following detailed description of the preferred embodiments of the invention illustrated in the drawings, wherein:
Having reference now to the drawings, in
HBA device driver 110 includes a common transport (CT) pass-through 112, an extended link service (ELS) pass-through 114 and a small computer system interface (SCSI) protocol driver 116. The CT pass-through 112 and the ELS pass-through 114 are coupled to the management application agents 108 that provides the CT protocol and ELS protocol communications functions. The SCSI protocol driver 116 is coupled to the host operating system 108 for conventional flow control of data. HBA firmware 118 and HBA hardware 119 is coupled between the HBA device driver 110 and a storage area network (SAN) 120. SAN 120 includes a fibre channel (FC) fabric and link services 122. The CT pass-through 112 and the ELS pass-through 114 are binary pass-throughs that each takes applied commands and passes the received commands to the SAN 120. CT operations from the management application agents 108 to the FC fabric and link services 122 are indicated by dotted lines. ELS operations from the management application agents 108 to the FC fabric and link services 122 are indicated by dashed lines. A SCSI storage device 124 is shown associated with the SAN cloud 120. FC fabric and link services 122 include multiple switches and hubs for connection of a plurality of FC devices 126 (one shown). FC fabric and link services 122 receive commands from the HBA firmware 118, HBA hardware 119 and sends data back via the HBA firmware 118, HBA hardware 119.
In accordance with features of the preferred embodiment, SAN management application 102 prepares a variety of commands at different levels of fibre channel specification, for example, CT and ELS commands. The SAN connected host system 104 communicates with the management application agents 108 which communicates with the HBA device driver 110 and HBA firmware 118, HBA hardware 119, which communicates with devices 126 in the SAN cloud 120.
In accordance with features of the preferred embodiment, in the SAN connected host system 104, the HBA device driver 110 and HBA firmware 118, HBA hardware 119 support the CT pass-through 112 and the ELS pass-through 114, such that a variety of commands, at different levels of the fibre channel specification, for example CT and ELS protocols, are prepared by the SAN management application agent 108, and passed via the HBA device driver 110 including the CT pass-through 112 and the ELS pass-through 114 and HBA firmware 118, HBA hardware 119 to a designated device where the commands are executed. As a result the problem of requiring micro code specific to multiple vendors is avoided. A reply can be generated on the device, and that reply returns to the SAN management program 102 via the same path of the commands.
In accordance with features of the preferred embodiment, the SAN connected host system 104 including the HBA device driver 110 and HBA firmware 118, HBA hardware 119 supporting the CT pass-through 112 and the ELS pass-through 114 allow several kinds of commands to be issued. For example, the commands include topology analysis commands, such as what is connected to what, and in what zone, and the like. The commands include performance analysis commands, such as access frame counters, data volume and the like. The commands include attribute analysis commands, such as disk drive number of blocks in use or free. The commands include configuration commands, such as to bring disks on or off line, swap spare disks, archive data, move disks between SAN zones, and the like.
Referring now to
Referring now to
While the present invention has been described with reference to the details of the embodiments of the invention shown in the drawing, these details are not intended to limit the scope of the invention as claimed in the appended claims.
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